Principles of heat transfer
Heat transfer takes place in two fundamentally different ways. A distinction is made thereby between material-bound (convection and heat conduction) and non-material bound (radiation).
WL 420
Heat conduction in metals
Investigation of the thermal conductivity of different metals.
WL 422
Heat conduction in fluids
Determination of the coefficient of thermal conductivity for gaseous and liquid fluids.
WL 430
Heat conduction and convection
Investigation of heat conduction and convection using the example of a cooling fin.
WL 440
Free and forced convection
Calculation of convective heat transfer at different geometries: flat plate, cylinder, tube bundle.
WL 460
Heat transfer by radiation
Effect of different surfaces on heat transfer.
WL 362
Energy transfer by radiation
Investigation of thermal and light radiation; thermal radiator and thermopile for the investigation of thermal radiation.
WL 372
Radial and linear heat conduction
Study of heat conduction in solids.
WL 376
Thermal conductivity of building materials
Investigation of thermal and light radiation; thermal radiator and thermopile for the investigation of thermal radiation.
WL 900
Steady-state and non-steady-state heat conduction
Linear heat conduction in metals; non-steady state temperature distribution.
WL 377
Convection and radiation
Heat transport between heating element and vessel wall by convection and radiation.