ME306 Heat and Mass Transfer

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Course Code Course Title Weekly Hours* ECTS Weekly Class Schedule
T P
ME306 Heat and Mass Transfer 3 2 6 Mon 13-15, Wed 11-12
Prerequisite MATH202 It is a prerequisite to
Lecturer Office Hours / Room / Phone

Currently not available

E-mail
Assistant Ammar Hodza Assistant E-mail ammarhodza@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
Learning Outcomes After successful  completion of the course, the student will be able to:
  1. Identify the mechanisms of heat transfer that occur simultaneously in practice.
  2. Solve one-dimensional heat conduction problems and obtain the temperature distributions within a medium.
  3. Solve steady conduction problems that involve multilayer rectangular, cylindrical, or spherical geometries.
  4. Analyze transient heat transfer problems and solve it when lumped system approach is applicable.
  5. Understand the limitations of analytical solutions of conduction problems, and the need for computation-intensive numerical methods.
  6. Calculate various characteristics of internal and external convection heat transfer problems.
  7. 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.
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 Compenents
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 Home study 4 15 60
0 0
Active Tutorials 2 14 28 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: 04/03/2020
QR Code for https://ecampus.ius.edu.ba/course/math202-differential-equations

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