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Heat Transfer

Heat transfer lectures by Professor Josua Meyer (2014). Topics covered in the lectures include: transient or unsteady heat conduction, convection heat transfer, external and internal forced convection, heat exchangers, thermal radiation including atmospheric and solar radiation. The lectures are based on the textbooks of White (8th ed) and Cengel and Ghajar (4th ed) and were presented as part of a heat transfer class to the fourth year students of the Department of Mechanical and Aeronautical Engineering, University of Pretoria.

Lecture 31 - Internal Forced Convection (5of8)

This lecture is the fifth lecture on internal forced convection. It discusses the use of the logarithm mean temperature difference. An overview is also given of the derivation of the Nusselt numbers for the constant heat flux and constant wall temperature cases.


Go to the Course Home or watch other lectures:

Lecture 01 - Transient (Unsteady) Heat Conduction
Lecture 02 - Transient Heat Transfer and Introduction to Lumped System Approach
Lecture 03 - Unsteady Heat Transfer: Lumped System
Lecture 04 - Transient Heat Transfer: Lumped System Approach
Lecture 05 - Transient Heat Conduction: Large Plane Walls, Long Cylinders and Spheres
Lecture 06 - Transient Heat Conduction: Large Plane Walls, Long Cylinders and Spheres
Lecture 07 - Transient Heat Conduction: Plane Walls, Cylinders and Spheres
Lecture 08 - Transient Heat Transfer: Plane Walls, Cylinders and Spheres
Lecture 09 - Transient Heat Transfer: Plane Walls, Cylinders and Spheres
Lecture 10 - Transient Heat Transfer: Heisler Charts and Semi-infinite Solids
Lecture 11 - Transient Heat Transfer: Heat Conduction in Semi-infinite Solids
Lecture 12 - Transient Heat Conduction: Contact of Two Semi-infinite Solids
Lecture 13 - Transient Heat Conduction: Multidimensional Systems
Lecture 14 - Transient Heat Conduction: Multidimensional Systems
Lecture 15 - Transient Heat Transfer: Multidimensional Systems; Ice Block
Lecture 16 - Transient Heat Transfer: Multidimensional Systems; Ice Block
Lecture 17 - Continuity Equation Derivation
Lecture 18 - Momentum and Navier-Stokes Equations
Lecture 19 - Stream Function and Couette Flow
Lecture 20 - Test 1 on Transient Heat Conduction and Differential Equations
Lecture 21 - Fundamentals of Convection Heat Transfer (1of3)
Lecture 22 - Fundamentals of Convection Heat Transfer (2of3): Boundary Layers
Lecture 23 - Fundamentals of Convection (3of3): Flat Plate Solution
Lecture 24 - External Forced Convection (1of3)
Lecture 25 - External Forced Convection (2of3)
Lecture 26 - External Forced Convection (3of3): Cylinders, Spheres and Tube Banks
Lecture 27 - Internal Forced Convection (1of8)
Lecture 28 - Internal Forced Convection (2of8)
Lecture 29 - Internal Forced Convection (3of8)
Lecture 30 - Internal Forced Convection (4of8)
Lecture 31 - Internal Forced Convection (5of8)
Lecture 32 - Internal Forced Convection (6of8)
Lecture 33 - Internal Forced Convection (7of8)
Lecture 34 - Internal Forced Convection (8of8)
Lecture 35 - Heat Exchangers (1of4)
Lecture 36 - Heat Exchangers (2of4)
Lecture 37 - Heat Exchangers (3of4)
Lecture 38 - Heat Exchangers (4of4)
Lecture 39 - Thermal Radiation (1of7)
Lecture 40 - Thermal Radiation (2of7)
Lecture 41 - Thermal Radiation (3of7)
Lecture 42 - Thermal Radiation (4of7): Radiation Intensity
Lecture 43 - Solar Radiation (5of7)
Lecture 44 - Solar Radiation (6of7)
Lecture 45 - Solar Radiation (7of7)