ASR3212 Radial Heat Conduction Module Didactic Equipment Thermal Transfer Training Equipment
Features
- One of four optional experiments for the Heat Transfer Experiments Base Unit
- Fits quickly and easily onto the base of the Heat Transfer Experiments Base Unit and water connections have self-sealing quick connectors needing no tools
- Shows the principles of radial heat conduction radially around a disc of uniform diameter
- Clear schematic printed on the baseplate aids student understanding
- Allows the thermal conductivity of the disc material to be measured
- Safe, low-voltage heater with over-temperature cut-out
Description
This experiment has a solid brass disc with an electric heater (heat source) at its centre and a circular crosssection cooling tube (heat sink) around its circumference. It mounts on a base plate with a clear schematic of the experiment layout.
The electric heater and thermocouples connect to sockets on the Heat Transfer Experiments Base Unit, which also supplies the cold water feed and drain for the heat sink
Students turn on the cooling water fl ow and adjust the heater power until the experiment reaches equilibrium.
At equally spaced radii on the disc, seven thermocouples measure the temperature as the heat conducts radially outwards from the heater. Insulation around the disc reduces heat loss by convection and radiation, so that the results should match the theory for simple radial conduction only.
Learning Outcomes
- Demonstration and calculations of radial heat conduction
- Calculation of the thermal conductivity (k value)
Essential Base Unit
- Heat Transfer Experiments Base Unit
Operating Conditions
Operating environment:
Laboratory
Storage temperature range:
–25°C to +55°C (when packed for transport)
Operating temperature range:
+5°C to +40°C
Operating relative humidity range:
80% at temperatures < 31°C decreasing linearly to 50% at 40°C
– Heated Disc. Material: Brass, Ø 110mm.
– Brass Core: Ø 14mm.
– Disc Thickness: 3.2mm.
– Radial interval of Thermocouples: 10mm