ME306 Heat and Mass Transfer

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Course Code

Course Title

Weekly Hours*

ECTS

Weekly Class Schedule

ME306

Heat and Mass Transfer

Mon 9am - 12 pm

Prerequisite

MATH202

It is a prerequisite to

ME432

Lecturer

Muhamed Hadžiabdić

Office Hours / Room / Phone

Tuesday:

13:00-15:30

Thursday:

13:00-15:30

A F1.31 - 033 957 212

E-mail

mhadziabdic@ius.edu.ba

Assistant

Mahir Hafizovic

Assistant E-mail

mahir.hafizovic@gmail.com

Course Objectives

The course aims to introduce basic concepts and principles of heat transfer encountered in mechanical engineering practice. It covers
analytical, empirical and numerical techniques for the solution of heat transfer problems. At the end of course diffusion mass transfer will
be introduced.

Textbook

Heat and Mass Transfer: Fundamentals and Applications, By Yunus Cengel

Additional Literature

Fundamentals of Heat and Mass Transfer by Frank P. Incropera, David P. DeWitt, et al.

Learning Outcomes

After successful completion of the course, the student will be able to:

Identify the mechanisms of heat transfer that occur simultaneously in practice.
Solve one-dimensional heat conduction problems and obtain the temperature distributions within a medium.
Solve steady conduction problems that involve multilayer rectangular, cylindrical, or spherical geometries.
Analyze transient heat transfer problems and solve it when lumped system approach is applicable.
Understand the limitations of analytical solutions of conduction problems, and the need for computation-intensive numerical methods.
Calculate various characteristics of internal and external convection heat transfer problems.
Calculate basic problems of mass transfer.

Teaching Methods

Lecturing and class discussions with examples. Active tutorial sessions for engaged learning and continuous feedback on progress.

Teaching Method Delivery

Face-to-face

Teaching Method Delivery Notes

WEEK

TOPIC

REFERENCE

Week 1

BASICS OF HEAT TRANSFER

Chap. 1

Week 2

HEAT CONDUCTION EQUATION

Chap. 2

Week 3

STEADY HEAT CONDUCTION

Chap. 3

Week 4

STEADY HEAT CONDUCTION

Chap. 3

Week 5

TRANSIENT HEAT CONDUCTION, QUIZ

Chap. 4

Week 6

FUNDAMENTALS OF CONVECTION

Chap. 6

Week 7

NUMERICAL METHODS IN HEAT CONDUCTION

Chap. 5

Week 8

Midterm exam

Chap. 1

Week 9

EXTERNAL FORCED CONVECTION

Chap. 7

Week 10

EXTERNAL FORCED CONVECTION

Chap. 7

Week 11

EXTERNAL FORCED CONVECTION

Chap. 7

Week 12

INTERNAL FORCED CONVECTION

Chap. 8

Week 13

INTERNAL FORCED CONVECTION

Chap. 8

Week 14

INTERNAL FORCED CONVECTION

Chap. 8

Week 15

Review of Topics

Assessment Methods and Criteria	Evaluation Tool	Quantity	Weight	Alignment with LOs
	Final Exam	1	40	all
	Semester Evaluation Components
	In-term exam	1	30	1,2,3,4
	Quiz	1	10	1,2,3
	Assignments	4	20	4,5,6,7
* ECTS Credit Calculation *

Activity	Hours	Weeks	Student Workload Hours	Activity	Hours	Weeks	Student Workload Hours
Lecture Hours	3	15	45				0
Active Tutorials	2	14	28	Home study	4	15	60
In-term Exam Study	6	1	6	Final exam study	11	1	11
				Total Workload Hours =			150
*T= Teaching, P= Practice				ECTS Credit =			6
Course Academic Quality Assurance: Semester Student Survey						Last Update Date: 09/11/2023

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