Stirling engine with an oscill
Principle
The Stirling engine is submitted to a load by means of an adjustable torquemeter, or by a coupled generator. Rotation frequency and temperature changes of the Stirling engine are observed. Effective mechanical energy and power, as well as effective electrical power, are assessed as a function of rotation frequency. The amount of energy converted to work per cycle can be determined with the assistance of the pV diagram. The efficiency of the Stirling engine can be estimated.
Benefits
- Demonstration of the complete Carnot process
- Reverse Carnot process possible as well using the motor/generator unit
- All important parts are clearly visible, making their functions transparent
- Measurement device displays all relevant parameters (p, V, rpm, T)
Thermocouple NiCr-Ni, -50..1100°C
Denaturated alcohol (spirit fo
Graduated cylinder, 50 ml, plastic
Syringe 20ml, Luer, 10 pcs
Sensor unit pVn for Stirling engine
Meter for Stirling engine, pVnT
Stirling engine transparent
Motor/ generator unit
Torque meter
Chimney for stirling engine
Rheostat, 330 Ohm , 1.0A
Digital multimeter 2005
Connecting cord, 32 A, 500 mm, red
Connecting cord, 32 A, 500 mm, blue
Digital storage oscilloscope, 20 MHz, 2 channels, 100 MS/s
Tasks
- Determination of the burner’s thermal efficiency.
- Calibration of the sensor unit.
- Calculation of the total energy produced by the engine through determination of the cycle area on the oscilloscope screen, using transparent paper and coordinate paper.
- Assessment of the mechanical work per revolution, and calculation of the mechanical power output as a function of the rotation frequency, with the assistance of the torque meter.
- Assessment of the electric power output as a function of the rotation frequency.
What you can learn about
- First and second law of thermodynamics
- Reversible cycles
- Isochoric and isothermal changes
- Gas laws
- Efficiency
- Stirling engine
- Conversion of heat
- Thermal pump