Simulation of a Martini Displacer Free Piston Stirling Engine for Electric Power Generation

Nasser Seraj Mehdizadeh; Pascal Stouffs

Simulation of a Martini Displacer Free Piston Stirling Engine for Electric Power Generation

Year 2000, Volume: 3 Issue: 1, 27 - 34, 01.03.2000

Abstract

We consider a gamma type free piston engine with the MARTINI configuration for electric power generation. A dynamic simulation of this engine has been developed using a decoupled analysis. The equation of motion of the free piston induces a strong coupling between the electrical load and the thermodynamics inside the free piston Stirling engine. From the thermodynamics point of view, the piston-displacer phase lag is an important parameter. We point out that, if the electrical circuit elements (R-L-C) are constants, the phase lag between the free pistons and displacer motions is far from the optimum for the engine considered. For both cases of stand-alone engine with an independent electrical load, or grid-connected engine, it is shown how, by varying the instantaneous value of the electrical resistance, one can in a very simple way multiply the net electrical power by a factor 4 to 6, and the efficiency by a factor 1.25 to 2, without any engine geometry modification.

Keywords

Stirling engine, Martini displacer, free piston engine, simulation, electrical load, piston motion control, piston displacer phase shift

Year 2000, Volume: 3 Issue: 1, 27 - 34, 01.03.2000

Nasser Seraj Mehdizadeh Pascal Stouffs

Abstract

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Details

Primary Language	English
Journal Section	Regular Original Research Article
Authors	Nasser Seraj Mehdizadeh This is me Pascal Stouffs
Publication Date	March 1, 2000
Published in Issue	Year 2000 Volume: 3 Issue: 1

Cite

APA	Seraj Mehdizadeh, N., & Stouffs, P. (2000). Simulation of a Martini Displacer Free Piston Stirling Engine for Electric Power Generation. International Journal of Thermodynamics, 3(1), 27-34.
AMA	Seraj Mehdizadeh N, Stouffs P. Simulation of a Martini Displacer Free Piston Stirling Engine for Electric Power Generation. International Journal of Thermodynamics. March 2000;3(1):27-34.
Chicago	Seraj Mehdizadeh, Nasser, and Pascal Stouffs. “Simulation of a Martini Displacer Free Piston Stirling Engine for Electric Power Generation”. International Journal of Thermodynamics 3, no. 1 (March 2000): 27-34.
EndNote	Seraj Mehdizadeh N, Stouffs P (March 1, 2000) Simulation of a Martini Displacer Free Piston Stirling Engine for Electric Power Generation. International Journal of Thermodynamics 3 1 27–34.
IEEE	N. Seraj Mehdizadeh and P. Stouffs, “Simulation of a Martini Displacer Free Piston Stirling Engine for Electric Power Generation”, International Journal of Thermodynamics, vol. 3, no. 1, pp. 27–34, 2000.
ISNAD	Seraj Mehdizadeh, Nasser - Stouffs, Pascal. “Simulation of a Martini Displacer Free Piston Stirling Engine for Electric Power Generation”. International Journal of Thermodynamics 3/1 (March 2000), 27-34.
JAMA	Seraj Mehdizadeh N, Stouffs P. Simulation of a Martini Displacer Free Piston Stirling Engine for Electric Power Generation. International Journal of Thermodynamics. 2000;3:27–34.
MLA	Seraj Mehdizadeh, Nasser and Pascal Stouffs. “Simulation of a Martini Displacer Free Piston Stirling Engine for Electric Power Generation”. International Journal of Thermodynamics, vol. 3, no. 1, 2000, pp. 27-34.
Vancouver	Seraj Mehdizadeh N, Stouffs P. Simulation of a Martini Displacer Free Piston Stirling Engine for Electric Power Generation. International Journal of Thermodynamics. 2000;3(1):27-34.