Links to:
- Comparative Analysis of a Stirling Heat Pump with Second- and Third-Order Computer Models
- Comparative Assessment of Free Piston and Kinematic Stirling Engine Technologies
- A Comparison of Cylinder Heat Transfer Expressions Based on Prediction of Gas Spring Hysteresis Loss
- Comparison of Free-Piston Stirling Engine Model Predictions with RE1000 Engine Test Data
- Dynamic Analysis of the Fluidyne
- Effect of Pressure-Drop Correlations on Stirling-Engine Predicted Performance
- Efficiency Terms for Stirling Engine Systems
- Evaluation of Power Control Methods for Free-Piston Stirling Engine Driven Heat Pumps
- Heat-Activated Heat-Pump Development and Potential Application for Stirling-Engine Technology
- Linear Harmonic Analysis for Stirling Machines and Second Law Analysis of Four Important Losses
- Linear Harmonic Analysis of Free-Piston Stirling Engines
- Linear Harmonic Analysis of Stirling Engine Thermodynamics
- Nonlinear Analysis of Stirling Engine Thermodynamics
- A Numerical Analysis of a Kinematic Stirling-Cycle Heat Pump for Space Conditioning Applications
- Overivew of NASA Lewis Research Center Free-Piston Stirling Engine Activities
- Preliminary Design of Linear Alternator Dynamometer for Free Piston Stirling Engines Final Report
- A Review of Stirling Engine Mathematical Models
- The Stirling Engine with One Adiabatic Cylinder
- Status of Free Piston Stirling Engine Driven Heat Pumps Final Report - Development, Issues, and Options
- Test Results and Description of a 1 kW Free-Piston Stirling Engine with a Dashpot Load
- A Theoretical Analysis of a Kinematic Stirling-Cycle Heat Pump for Space Conditioning Applications
- Two-Phase, Two-Component Stirling Engine with Controlled Evaporation
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