[1] Mattingly, J.D., Elements of Propulsion: Gas Turbines and Rockets. Reston, Virginia, USA: American Institute of Aeronautics and Astronautics, 2006. [2] Poullikkas, A., "An Overview of Current and Future Sustainable Gas Turbine Technologies", Renewable & Sustainable Energy Reviews, Vol. 9, No. 5, pp. 409-443, 2005. [3] Milewski, J., Badyda, K. and Miller, A., Gas Turbines in Unconventional Applications, Efficiency, Performance and Robustness of Gas Turbines, Dr. Volkov Konstantin (Ed.), ISBN: 978-953-51- 0464-3, 2012. [4] Schmidt, G., The Theory of Lehmann’s Calorimetric Machine, Z., Vereines Deutcher Ingenieure, 15, part 1, 1871. [5] Finkellstein, T., Analogue Simulation of Stirling Engine, No. 2, 1975. [6] Urieli, I., Berchowitz, D.M., Stirling Cycle Engine Analysis, Oxford, Oxford University Press, 1984. [7] Kongtragool, B., Wongwises, S., "A Review of Solar Powered Stirling Engines and Low Temperature Differential Stirling Engines", Renewable and Sustainable Energy Reviews, Vol. 7, pp. 131-154, 2003. [8] Timoumi, Y., Nasrallah, S.B. and Tlili, I., "Numerical Simulation and Losses Analysis in a Stirling Engine", Heat and Thechnology, Vol. 24, No. 1, pp. 97-105, 2006. [9] Timoumi, Y., Tlili, I., Nasrallah, S. B., "Reduction of Energy Losses in a Stirling Engine", Heat and Thechnology, Vol. 25, No. 1, pp. 81-90, 2007. [10] Timoumi, Y., Nasrallah, S. B. and Tlili, I., "Thermodynamic Analysis of the Stirling Heat Engine with Regenerative Losses and Internal Irreversibilities", Engine Res, Vol. 9, pp. 45-56, 2007. [11] Timoumi, Y., Tlili, I. and Nasrallah, S.B., "Design and Performance Optimization of GPU-3 Stirling Engines", Energy, Vol. 33, pp. 1100-1114, 2008. [12] Korlu, M., Pirkandi, J. and Maroufi, A., "Thermodynamic Analysis of a Gas Turbine Cycle Equipped with a Non-ideal Adiabatic Model for a Double Acting Stirling Engine", Energy Conversion and Managment, Vol. 147, pp. 120-134, 2017. [13] Thombare, D.G. and Verma, S.K., "Technological Development in the Stirling Cycle Engines", Renewable and Sustainable Energy Reviews, Vol. 12, pp. 1-38, 2008. [14] Chahartaghi, M. and Sheykhi, M., "Energy and Exergy Analyses of Beta-type Stirling Engine at Different Working Conditions, Vol. 169, pp. 279-290, 2018. [15] Entezari, A., Manizadeh, A., andAhmadi, R., "Energetical, Exergetical and Economical Optimization Analysis of Combined Power Generation System of Gas Turbine and Stirling Engine, Vol. 159, pp. 189-203, 2018. ]16[ مصطفوی، سید علیرضا، شیرازی، محمد، «احتراق ذرات سوخت زیست‌توده در یک واحد تولید همزمان توان و حرارت مقیاس کوچک»، نشریه علمی و پژوهشی مهندسی و مدیریت انرژی، جلد 6، شمارۀ 3، صفحۀ 56ـ63، ۱۳۹۵. [17] Haseli, Y., Dincer, I. and Naterer, G.F., "Thermodynamic Modeling of a Gas Turbine Cycle Combined with a Solid Oxide Fuel Cell", Hydrogen Energy Vol. 33, pp. 5811-5822, 2008. [18] Abete, A. J., Testing and Optimization of the Performance of a Stirling Engine, Master. Thesis, College Osnabrück, 2013. [19] Walker, G., Stirling Engines, Oxford University Press, Oxford, 1980. [20] Malroy, E.T., Solution of the Ideal Adiabatic Stirling Model with Coupled First Order Differential Equations by the Pasic Method, Maters. Thesis, Ohio University, College of Engineering and Technology, 1998.