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Factors Influencing the Thermodynamic Efficiency of Stirling Engines
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This meta-study examines the factors which contribute to Stirling engine efficiency. Working fluids should have high specific heat capacity, low viscosity and low density making noble gases the most suitable. Each different working fluid has its own optimum power output at varying pressures and temperatures. The best being Helium at 4.14 MPa and 922K. Dead volume also affects the power output of Stirling engines. Theoretical engines with zero dead volume are ideal but dead volume can occupy over 50% of the engine. Engine configuration also impacts on the efficiency of a Stirling engine. The layout of pistons and cylinders about each other can also have drastic effects on these efficiencies. Currently the most effective engine layout is the ‘gamma’ configuration, which measures 30%-32% efficient. Future research is required to produce a more efficient Stirling engines, based on the factors considered above to determine the viability of these engines as a replacement for coal and fossil fuel powered combustion engines.
University of Technology, Sydney (UTS)
Title: Factors Influencing the Thermodynamic Efficiency of Stirling Engines
Description:
This meta-study examines the factors which contribute to Stirling engine efficiency.
Working fluids should have high specific heat capacity, low viscosity and low density making noble gases the most suitable.
Each different working fluid has its own optimum power output at varying pressures and temperatures.
The best being Helium at 4.
14 MPa and 922K.
Dead volume also affects the power output of Stirling engines.
Theoretical engines with zero dead volume are ideal but dead volume can occupy over 50% of the engine.
Engine configuration also impacts on the efficiency of a Stirling engine.
The layout of pistons and cylinders about each other can also have drastic effects on these efficiencies.
Currently the most effective engine layout is the ‘gamma’ configuration, which measures 30%-32% efficient.
Future research is required to produce a more efficient Stirling engines, based on the factors considered above to determine the viability of these engines as a replacement for coal and fossil fuel powered combustion engines.
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