Advanced Computational and Civil Engineering Structural Studies Heat Transfer, Conduction Lecturer: P. Freudenberg
Lecture contents
Heat Transfer in General
Heat Transfer in General: Transfer Types
Heat Transfer in General: Transfer Types
Heat Transfer in General: Transfer Types
Heat Conduction
Heat Conduction- Simplified Approach
Heat Conduction: 1D
Heat conduction: 1D
Heat Conduction – Thermal Conductivity
Heat Conduction: Thermal Conductivity
Heat Conduction: Thermal Conductivity
Thermal Conductivity and Porosity
Thermal Conductivity and Porosity
Thermal Conductivity and Porosity
Conductivity and Moisture Content
Thermal Conductivity and Temperature
Thermal Conductivity and Temperature
Thermal Conductivity and Temperature
TC and Heat Flow Direction
TC and Density
Heat Conduction 1D
Heat Conduction 1D
Heat Conduction 1D: Surfaces
Heat conduction - Surface Resistance
Heat conduction - Surface Resistance
Heat Conduction - Contact Conditions
Heat conduction – Contact Resistance
Example: 1D Steady-State
Example: 1D Steady-State
Example: 1D Steady-State
Example: 1D Steady-State
Example: 1D Steady-State
Heat Conduction 2D Steady-State
Heat Conduction 2D Steady-State
Heat Conduction- Simplified 2-D
Finite- Difference- Method – 2d Steady St.
Finite- Difference- Method – 2d Steady St.
Finite- Difference- Method – 2d Steady St.
Finite- Difference- Method – 2d Steady St.
Finite- Difference- Method – 2d Steady St.
Finite- Element- Method – 2d Steady St.
Finite- Difference- Method – 2d Steady St.
Finite- Difference- Method – 2d Steady St.
Boundary Conditions
Boundary Conditions
Boundary Conditions
Boundary Conditions
Advanced Computational and Civil Engineering Structural Studies Exercise 1 Therm (LBNL) Lecturer: P. Freudenberg Contributors:
3.60M
Category: physicsphysics
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Heat transfer

1. Advanced Computational and Civil Engineering Structural Studies Heat Transfer, Conduction Lecturer: P. Freudenberg

Fakultät Architektur Institut für Bauklimatik
Advanced Computational and Civil Engineering Structural Studies
Heat Transfer, Conduction
Lecturer: P. Freudenberg
Contributors: P. Freudenberg, H. Fechner, J. Grunewald
Dresden, 23.04.2020

2. Lecture contents

1.
Introduction to Heat Transfer
2.
Heat Conduction
3.
Thermal Conductivity
4.
Finite Difference Approach for One-Dimensional Steady-
State Heat Transfer
5.
Finite Difference Approach for Two-Dimensional SteadyState Heat Transfer
6.
Finite Element Approach
TU Dresden, 23.04.2020
ACCESS – Lecture 2 Heat Transfer
Folie 2 von 50

3. Heat Transfer in General

What is heat?
Heat is a form of energy in transit due to a temperature difference.
What is heat transfer?
Heat transfer is energy that flows from higher to lower level of temperature without any
work being performed.
In which way is the amout of transferred heat described?
flow = transport coefficient x potential gradient
flow: heat flux q [W/m²] or heat transfer rate Q [W]
coefficient: depends on transfer characteristics
gradient: difference resp. derivative
TU Dresden, 23.04.2020
ACCESS – Lecture 2 Heat Transfer
Folie 3 von 50

4. Heat Transfer in General: Transfer Types

Conduction
m
Heat transfer in resting fluids and solids
Diffusive transport of thermal energy
Fluids: via moving atoms & molecules
Solids: lattice oscillations and movement of unbound
θ2
θ1
e-
electrons (in electroconductive materials)
Description via Fourier‘s law:
ΔT
q = −λ ∙
Δ
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