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ACKNOWLEDGEMENTS This study conducted by National Research University “Moscow Power Engineering Institute” was supported by the Russian Science Foundation under Agreement No. 17-79-20371 dated July 28, 2017. REFERENCES 1. A. Rogalev, I. Komarov, V. Kindra and O. Zlyvko, Entrepreneurial assessment of sustainable development technologies for power energy sector, Entrepreneurship and Sustainability Issues 6(1), 429–445 (2018). 2. A. Rogalev, V. Kindra and S. Osipov, Modeling methods for oxy-fuel combustion cycles with multicomponent working fluid, AIP Conference Proceedings 2047, 020020 (2018). 3. A. Fioravanti, L. Lombardi and G. Manfrida, An innovative energy cycle with zero CO2 emissions, Proceedings of the 43-rd Gas Turbine and Aeroengine Congress and Exhibition. Stockholm, Sweden (1998). 4. P. Mathieu, Presentation of an innovative zero-emission cycle for mitigating the global climate change, International Journal of Applied Thermodynamics 1(1–4), 21–30 (1998). 5. E. Iantovski and P. Mathieu, Highly efficient zero emission CO2-based power plant, Energy Conversion and Management 38, 141–146 (1997). 6. G. Lozza and P. Chiesa, Natural gas decarbonization to reduce CO2 emission from combined cycles. Part B: Steam-methane reforming, Proceedings of ASME Turbo Expo 2000: Power for Land, Sea, and Air. Munich, Germany (2000). 7. T. Andersen, M. Kvamsdal and O. Bolland, Gas turbine combined cycle with CO2-capture using auto-thermal reforming of natural gas, Proceedings of ASME Turbo Expo 2000: Power for Land, Sea, and Air. Munich, Germany (2000). 8. D. Fiaschi, L. Lombardi and L. Tapinassi, The recuperative auto thermal reforming and recuperative reforming gas turbine power cycles with CO2 removal – Part II: The recuperative reforming cycle, Journal of Engineering for Gas Turbines and Power 126(1), 62–68 (2004). 9. A. Zaryankin, A. Rogalev, S. Osipov and V. Kindra, Supercritical carbon dioxide gas turbines for high-power generation, AIP Conference Proceedings 2047, 020026 (2018). 10. R. J. Allam, M. Palmer, W. Brown, J. Fetvedt, D. Freed, H. Nomoto, M. Itoh, M. Okita and C. Jones, High efficiency and low cost of electricity generation from fossil fuels while eliminating atmospheric emissions, including carbon dioxide, Energy Procedia 37, 1135–1149 (2013). 11. R. J. Allam, S. Martin, B. Forrest, J. Fetvedt, X. Lu, D. Freed, W. Brown, T. Sasaki, M. Itoh and J. Manning, Demonstration of the Allam Cycle: An update on the development status of a high efficiency supercritical carbon dioxide power process employing full carbon capture, Energy Procedia 114, 5948–5966 (2016). 12. A. G. Kostyuk, V. G. Gribin and A. D. Trukhnii, The concept of new-generation steam turbines for coal power engineering of Russia. Part 1. Economic and technical substantiation of the concept, Thermal Engineering 57 (12), 1018–1027 (2010). 13. G. D. Avrutsky, I. A. Savinkova, M. V. Lazarev, V. V. Akulenko, A. L. Shvarts and S. A. Ivanov, Development of technical solutions for the USC turbine block, Power Plants 10, 36–40 (2005). 14. A. Dahlquist, “Conceptual thermodynamic cycle and aerodynamic gas turbine design on an oxy-fuel combined cycle,” Ph.D. thesis, Lund University, 2016. 15. A. Zaryankin, A. Rogalev, V. Kindra, V. Khudyakova and N. Bychkov, Reduction methods of secondary flow losses in stator blades: numerical and experimental study, Proceedings of the 12-th European Conference on Turbomachinery Fluid Dynamics and Thermodynamics. Stockholm, Sweden (2017). 16. K. Wiens, Airfoil thickness as a life limiting factor of gas turbine blades, Proceedings of the 20-th Symposium of the Industrial Application of Gas Turbines Committee. Banff, Canada (2013). 17. A. A. Inozemtsev, M. A. Nikhamkin, V. D. Sandritsky, Design of aero engines and power production facilities (Mashinostroenie, Moscow, 2008), p. 365. 18. I. V. Shevchenko, A. N. Rogalev, I. V. Garanin, A. N. Vegera and V. O. Kindra, Research and development of asymmetrical heat transfer augmentation method in radial channels of blades for high temperature gas turbines, Journal of Physics: Conference Series 891(1), 012142 (2017). 020018-7PDF Image | design approach for supercritical CO2 gas turbine
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