kw.\*:("Stirling engine")
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Mobile hydraulic power supply: Liquid piston Stirling engine pumpVAN DE VEN, James D.Renewable energy. 2009, Vol 34, Num 11, pp 2317-2322, issn 0960-1481, 6 p.Article
Performance comparison of a novel configuration of beta-type Stirling engines with rhombic drive engineSOLMAZ, Hamit; KARABULUT, Halit.Energy conversion and management. 2014, Vol 78, pp 627-633, issn 0196-8904, 7 p.Article
Multi-objective optimization of GPU3 Stirling engine using third order analysisTOGHYANI, Somayeh; KASAEIAN, Alibakhsh; SEYYED HASAN HASHEMABADI et al.Energy conversion and management. 2014, Vol 87, pp 521-529, issn 0196-8904, 9 p.Article
Thermodynamic analysis of a Stirling engine including regenerator dead volumePUECH, Pascal; TISHKOVA, Victoria.Renewable energy. 2011, Vol 36, Num 2, pp 872-878, issn 0960-1481, 7 p.Article
Comparison of the externally heated air valve engine and the helium Stirling engineKAZIMIERSKI, Zbyszko; WOJEWODA, Jerzy.Energy conversion and management. 2014, Vol 80, pp 357-362, issn 0196-8904, 6 p.Article
Thermodynamic analysis of a beta-type Stirling engine with rhombic drive mechanismAKSOY, Fatih; CINAR, Can.Energy conversion and management. 2013, Vol 75, pp 319-324, issn 0196-8904, 6 p.Article
A high pressure and high frequency diaphragm engine: Comparison of measured results with thermoacoustic predictionsSTEINER, Thomas W; ARCHIBALD, Geoffrey D. S.Applied energy. 2014, Vol 114, pp 709-716, issn 0306-2619, 8 p.Article
Characterization of the power and efficiency of Stirling engine subsystemsGARCIA, D; GONZALEZ, M. A; PRIETO, J. I et al.Applied energy. 2014, Vol 121, pp 51-63, issn 0306-2619, 13 p.Article
An experimental study on the performance of the moving regenerator for a γ-type twin power piston Stirling engineCHEN, Wen-Lih; WONG, King-Leung; CHEN, Hung-En et al.Energy conversion and management. 2014, Vol 77, pp 118-128, issn 0196-8904, 11 p.Article
Design and analysis of highly effective pulse tube engineKI, Taekyung; JEONG, Sangkwon.Applied thermal engineering. 2013, Vol 53, Num 1, pp 31-36, issn 1359-4311, 6 p.Article
A computational fluid dynamics study on the heat transfer characteristics of the working cycle of a β-type Stirling engineSALAZAR, Jose Leon; CHEN, Wen-Lih.Energy conversion and management. 2014, Vol 88, pp 177-188, issn 0196-8904, 12 p.Article
Optimization of geometrical parameters for Stirling engines based on theoretical analysisCHENG, Chin-Hsiang; YANG, Hang-Suin.Applied energy. 2012, Vol 92, pp 395-405, issn 0306-2619, 11 p.Article
Displacer gap losses in beta and gamma Stirling enginesMABROUK, M. T; KHEIRI, A; FEIDT, M et al.Energy (Oxford). 2014, Vol 72, pp 135-144, issn 0360-5442, 10 p.Article
An analysis of beta type Stirling engine with rhombic drive mechanismSHENDAGE, D. J; KEDARE, S. B; BAPAT, S. L et al.Renewable energy. 2011, Vol 36, Num 1, pp 289-297, issn 0960-1481, 9 p.Article
Dynamic simulation of a beta-type Stirling engine with cam-drive mechanism via the combination of the thermodynamic and dynamic modelsCHENG, Chin-Hsiang; YU, Ying-Ju.Renewable energy. 2011, Vol 36, Num 2, pp 714-725, issn 0960-1481, 12 p.Article
Stirling's air engine-a thermodynamic appreciationPRIETO, J. I.Proceedings of the Institution of Mechanical Engineers. Part C, Journal of mechanical engineering science. 2002, Vol 216, Num 1, pp 123-125, issn 0954-4062Article
Experimental and numerical flow investigation of Stirling engine regeneratorCOSTA, Sol-Carolina; TUTAR, Mustafa; BARRENO, Igor et al.Energy (Oxford). 2014, Vol 72, pp 800-812, issn 0360-5442, 13 p.Article
Single-piston alternative to Stirling enginesGLUSHENKOV, Maxim; SPRENKELER, Martin; KRONBERG, Alexander et al.Applied energy. 2012, Vol 97, pp 743-748, issn 0306-2619, 6 p.Conference Paper
Techno-economic assessment and optimization of Stirling engine micro-cogeneration systems in residential buildingsALANNE, Kari; SÖDERHOLM, Niklas; SIREN, Kai et al.Energy conversion and management. 2010, Vol 51, Num 12, pp 2635-2646, issn 0196-8904, 12 p.Article
The KMAB stirling air independent power systemPERSON, O. B.Transactions of the Institute of marine engineers. 1990, Vol 102, pp 137-140, 4 p., p.2Article
A numerical analysis on the performance of a pressurized twin power piston gamma-type Stirling engineCHEN, Wen-Lih; WONG, King-Leung; PO, Li-Wen et al.Energy conversion and management. 2012, Vol 62, pp 84-92, issn 0196-8904, 9 p.Article
A non-tubular Stirling engine heater for a micro solar power unitGARCIA, D; PRIETO, J. I.Renewable energy. 2012, Vol 46, pp 127-136, issn 0960-1481, 10 p.Article
Combining dynamic and thermodynamic models for dynamic simulation of a beta-type Stirling engine with rhombic-drive mechanismCHENG, Chin-Hsiang; YU, Ying-Ju.Renewable energy. 2012, Vol 37, Num 1, pp 161-173, issn 0960-1481, 13 p.Article
Thermoacoustic model of a modified free piston Stirling engine with a thermal buffer tubeQIN YANG; LUO, Ercang; WEI DAI et al.Applied energy. 2012, Vol 90, Num 1, pp 266-270, issn 0306-2619, 5 p.Conference Paper
Numerical model for predicting thermodynamic cycle and thermal efficiency of a beta-type Stirling engine with rhombic-drive mechanismCHENG, Chin-Hsiang; YU, Ying-Ju.Renewable energy. 2010, Vol 35, Num 11, pp 2590-2601, issn 0960-1481, 12 p.Article