Bibliografia

Alcuni riferimenti bibliografici

[1] I. Urieli, D.M. Berchowitz, “Stirling cycle engine analysis”, Adam Higler Ltd., Bristol, England, 1984.

[2] N. Lane, D. M. Berchowitz, “Development of a high frequency Stirling engine-powered 3 kW(e) generator set”, Proceedings of the 24th Intersociety Energy Conversion Engineering Conference, 1989.

[3] V. Naso, “La macchina di Stirling”, ESA, Milano, 1991.

[4] G. Benvenuto, F. de Monte, “Analysis of free-piston Stirling engine/linear alternator system part 2: results” Journal of propulsion and power, Vol. 11 No.5 1995.

[5] F. de Monte, G. Galli, F. Marcotullio, “An analytical oscillating flow thermal analysis of the heat exchangers and regenerator in Stirling machines”, Proceedings of the 31th Intersociety Energy Conversion Engineering Conference, 1996.

[6] Keys, London, “Compact heat exchanger”, McGraw-Hill, New York, 1964.

[7] G. Benvenuto, F. de Monte, “The influence of thermodynamic losses on free-piston Stirling engine performance”, Proceedings of the 30th Intersociety Energy Conversion Engineering Conference, 1995.

[8] D.M Berchowitz, M. Richter, “Development and performance of a 3 kW(e) air charged free-piston Stirling engine with linear alternator”, Proceedings of the 22th Intersociety Energy Conversion Engineering Conference, 1987.

[9] G. Benvenuto, F. de Monte, “Study of the response to load variation of free-piston Stirling engine”, Proceedings of the 26th Intersociety Energy Conversion Engineering Conference, 1991.

[10] G. Benvenuto, F. de Monte, “A simple approach to calculate the regenerator effectiveness in Stirling machines”, International Conference on Stirling cycle machines, 1995.

[11] G. Benvenuto, F. de Monte, F. Farina, “Dynamic behaviour prediction of free-piston Stirling engines”, Proceedings of the 25th Intersociety Energy Conversion Engineering Conference, 1990.

[12] G. Benvenuto, F. de Monte, “The effect of nonlinear thermo-fluid-dynamic terms on free-piston Stirling machine stability”, Proceedings of the 31th Intersociety Energy Conversion Engineering Conference, 1996.

[13] R. Redlich, D.M. Berchowitz, “Linear dynamics of free-piston Stirling engines”, Proceedings of the institution of mechanical engineers, Vol 199, 1985.

[14] D.M. Berchowitz,” Operational characteristics of free-piston Stirling engines”, Proceedings of the 23rd Intersociety Energy Conversion Engineering Conference, 1988.

[15] H. Karabulut, H.S. Yucesu, C. Cinar, “Nodal analysis of a Stirling engine with concentric piston and displacer” Renewable Energy Vol. 31, 2006.

[16] E.D. Rogdakis, N.A. Bormpilas, I.K. Koniakos, “A thermodynamic study for the optimization of stable operation of free piston Stirling engine” Energy conversion and management Vol. 45, 2004.

[17] A. Sakano, S. Isshiki, I. Ushiyama, “Studies on flow resistance of regenerator in Stirling engine”.

[18] M. D. Kankam, J.S. Rauch, W. Santiago, “Dynamic analysis of free-piston Stirling engine/linear alternator-load system- experimentally validated”, Proceedings of the 27th Intersociety Energy Conversion Engineering Conference, 1992.

[19] L. Thieme, “Component technology for Stirling power converters”, Proceedings of the 26th Intersociety Energy Conversion Engineering Conference, 1991.

[20] F. de Monte, G. Benvenuto, “Reflections on free-piston Stirling engines, part 1: cyclic steady operation”, Journal of propulsion and power, Vol. 14 No.4 1998.

[21] C. D. West, “Principles and applications of Stirling engines”, Reinhold, New York, 1986.

[22] G. Walker, J.R. Senf, “Free piston Stirling engines”, Springer-Verlag, Berlin, 1985.

[23] M.D. Kankam, J.S. Rauch, “Comparative survey of dynamic analyses of free-piston Stirling engines”, Proceedings of the 26th Intersociety Energy Conversion Engineering Conference, 1991.

[24] G. Benvenuto, F. de Monte, “An adiabatic approach for the design and the response to load evaluation of free-piston Stirling engines”, Proceedings of the 27th Intersociety Energy Conversion Engineering Conference, 1992.

[25] W.T. Beale, “Free piston Stirling engines- some model tests and simulations” International automotive engineering congress, 1969.

[26] Z.X. Fu, S.A. Nasar, M. Rosswurm, “Stability analysis of free piston Stirling engine power generation system”, Proceedings of the 27th Intersociety Energy Conversion Engineering Conference, 1992.

[27] Z.X. Fu, S.A. Nasar, M. Rosswurm, “Tradeoff between magnet volume and tuning capacitor in a free piston Stirling engine power generation system”, Proceedings of the 27th Intersociety Energy Conversion Engineering Conference, 1992.

[28] W. Chung, S. Kim, “Heat transfer analysis in Stirling engine heat input system”, Proceedings of the 30th Intersociety Energy Conversion Engineering Conference, 1995.

[29] L. Bauwens, “Are empirical convection models adequate for regenerators?”, Proceedings of the 30th Intersociety Energy Conversion Engineering Conference, 1995.

[30] G. Chen, J. McEntee, “Development of a 3 kW free-piston Stirling engine with the displacer gas-spring partially sprung to the power piston”, Proceedings of the 26th Intersociety Energy Conversion Engineering Conference, 1991.

[31] W. A. Wong, J. E. Cairelli, D.M. Swec, “NASA Lewis Striling SPRE testing and analysis with reduced number of cooler tubes”, Proceedings of the 27th Intersociety Energy Conversion Engineering Conference, 1992.

[32] D. Gedeon, “Scaling rules for Stirling engines”, Proceedings of the 16th Intersociety Energy Conversion Engineering Conference, 1981.

[33] W.T. Beale, “Free-piston Stirling engines for domestic cogeneration and biomass energy conversion”, Symposium on greenhouse gas emissions and mitigation research, 1995.

[34] R. Redlich, “A summary of twenty years experience with linear motors and alternators”, Sunpower Inc., 1995.

[35] F. de Monte, G. Benvenuto, “Reflections on free-piston Stirling engines, part 2: stable operation”, Journal of propulsion and power, Vol. 14 No.4 1998.

[36] I. Kolin, M. Golub, V. Naso, “Crucial parameters for wire mesh regenerator”.

[37] G. Benvenuto, F. de Monte, “Analysis of free-piston Stirling engine/linear alternator system part 1: theory” Journal of propulsion and power, Vol. 11 No.5 1995.

[38] N. Chen, F. Griffin, “Effects of pressure-drop correlations of Stirling engine predicted performance”, Proceedings of the 18th Intersociety Energy Conversion Engineering Conference, 1983.

[39] F. de Monte, “Thermal analysis of the heat exchangers and regenerator in Stirling cycle machines”, Journal of propulsion and power, Vol. 13 No.3 1997.

[40] W.P. Hew, J. Jamaludin, “Fabrication and testing of a linear electric generator for use with a free-piston engine”, Proceedings of the National Power and Energy Conference, 2003.

[41] I. Boldea, C. Wang, B. Nasar, “Analysis and design of flux reversal linear permanent magnet oscillating machine”, IEEE, 1998.

[42] F.Marignetti, M. Scarano, “Analysis of PM tubular actuators”, IEEE, 1999.

[43] S. Geng*, J. Niedra, “A 3-D magnetic analysis of a linear alternator for a Stirling power system”, AIAA, 2000,
* NASA Glenn research center.

[44] I. Boldea, S. Nasar, “Linear electric actuators and generators”, IEEE, 1999.

[45] I. Boldea, S. Nasar, “New linear reciprocating machine with stationary permanent magnets”, IEEE, 1996.

[46] H. Arof, K.M. Nor, “Linear generator: design and simulation”, Proceedings of the National Power and Energy Conference, 2003.

[47] E. Miller, J. Dudenhoefer, “On the dynamic response of pressure transmission lines in the research of helium-charged free piston Stirling engines”, Proceedings of the 24th Intersociety Energy Conversion Engineering Conference, 1989.

[48] G. Chen, “Dynamic characteristics concerned in the design of a free-piston Stirling engine/magnetic coupling/compressor system”, Proceedings of the 24th Intersociety Energy Conversion Engineering Conference, 1989.

[49] N. Chen, F. Griffin, C. D. West, “Linear harmonic analysis for Stirling machines and second law analysis of four important losses” DOE EERE Research Report.

[50] N. Chen, F. Griffin, “Linear harmonic analysis of free-piston Stirling engines”, Oak Ridge National Laboratory Report. 1986.

[51] N. Chen, F. Griffin, C. West, “Linear harmonic analysis of Stirling engines thermodynamics”, Oak Ridge National Laboratory Report. 1984.

[52] R. C. Tew, “Comparison of free-piston Stirling engine model predictions with RE 1000 engine test data”, National Aeronautics and Space Administration Lewis Research Center, 1984.

[53] O. Ercan Ataer, “Numerical analysis of regenerators of free-piston type Stirling engines using Lagrangian formulation”, International Journal of Refrigeration”, 2001.

[54] W.R. Martini, “Stirling Engine Design Manual”, Martini Engineering, 1985.

[55] P. A. Chapman, N. A. Vitale, T.J. Walter, “5-kWe Free-Piston Stirling Engine Convertor”.

[56] N.W. Lane, W.T. Beale, “Free-piston design features”, Sunpower.

[57] Allan J. Organ, "The Regenerator and the Stirling Engine", MEP, 1997.

[58] Theodor Finkelstein, Allan J. Organ, "Air Engines", ASME, 2001.

[59] C.M. Hargraves, "The Philips Stirling Engine", Elsevier, 1991.

[60] W. Chiu, Z. Hogan, Z. Antoniak, "Parametric testing and evaluation of a free-piston Stirling engine/linear compressor system", General Electric Company, 1983.