Stirling Engine D

Product Overview

Experiment topics: - Operation of a Stirling engine as a classical heat engine - Measurement of the no load (idling) rate of rotation as a function of the heat input - Recording and evaluating a pV diagram A functional model of a Stirling engine based on an idea by Professor Wilke optimised for demonstrating to students the conversion of thermal energy into mechanical energy and the operation of a thermal engine as well as investigating the Stirling cycle. The interplay between the displacement piston and the power piston can be seen especially clearly at a low rate of rotation. In this version the displacement piston moves discontinuously with a dwell time during the heating of the working medium (air) and a second dwell time during its cooling. This offers a clearer demonstration of the ideal Stirling cycle than is possible with continuous piston movement. The heat source can be provided by an integrated electric hotplate a candle flame or focused radiation from the sun or from a lamp. In the latter case the direction of rotation will depend on whether the heat is applied from above or from below. For recording pV diagrams the pressure can be measured via a rubber hose connection on the power cylinder and the volume can be measured by attaching a thread to the power piston to follow its movement. Heater voltage: 8 ? 12 V 1.5 A Gas volume: 330 cm? ? 345 cm? Flywheel rod: 400 mm Dimensions without flywheel rod: 260?185?330 mm? Weight: 2.2 kg

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