Fundamental principles of heat transfer radiation for industrial heat transfer online course chemical Engineering
☑ Understanding
Heat Transfer is one of the principle courses for all the university students who study in one of the branches of chemical engineering, mechanical engineering or materials engineering. This course which is placed at the beginning semesters of bachelor programs, is offered in two separate courses as heat transfer 1 & 2 each credited as 3 units. Having a full grasp over the concepts of heat transfer and fully understand the mechanisms of heat transfer in different situations is a must for any students studying the fields mentioned. Heat transfer is not only one of the core courses of those majors but also having a strong foundation in it will help to understand the concepts of future principle courses such as mass transfer, unit operation and others much better.
The present course, Heat Transfer 1 (RAHHT1) is a crash course to help you get that last bit of concepts in. We have designed this course in less than 7 hours and within this time we have covered the most important topics of heat transfer 1. Moreover, we have brought you the most important formulas and widely used equations so that you will not be lost among the many formulas within your textbook. Also, there are sample examples that we have tried to use to show you how and when to use the formulas and where to use which one.
This course will be a great help to those who want to have a compact and well organized resource to review their studies before their class or college exams.
We shall cover the principles and different aspects of the three heat transfer methods (Conduction, Convection, and Radiation) in chapter 1. The rest of the chapters will focus on conduction heat transfer more than the other two. We will begin with one dimensional conduction in steady state condition in chapter 2 and then move on to multidimensional conduction in chapter 3. Lastly we discuss transient heat flow or unsteady state conduction in chapter 4. Convection and radiation heat transfer methods will be exclusively covered in heat transfer 2.
English
Language
Introduction
Before we start
Introduction
introduction to heat transfer
conduction method
example 1
convection method
example 2
example 3
example 4
radiation method
example 5
example 6
Steady state one dimensional conduction
plane walls & radial systems
example 7
example 8
overall heat transfer coefficient
example 9
critical thickness of insulation
example 10
heat source systems
example 11
Steady state one multidimensional conduction
analytical method
graphical method
example 12
example 13
numerical method
example 14
Unsteady state conduction
unsteady state heat transfer
lumped systems
example 15
semi infinite solid
example 16
example 17
heisler charts
example 18
multidimensional systems
example 19
transient numerical method