Andrii Rusanov

A. Podgorny Institute of Mechanical Engineering Problems of the National Academy of Sciences of Ukraine, Ukraine
Doctor of technical sciences, Professor
Department of Hydroaeromechanics of Power Machines

Scopus profile: link
Researcher ID: U-3567-2017
Google Scholar profile:

Selected Publications:

  1. Rusanov, A., Subotin, V., Shvetsov, V., Rusanov, R., Palkov, S., Palkov, I., Chugay, M. (2022). Application of innovative solutions to improve the efficiency of the LPC flow part of the 220 MW NPP steam turbine. Archives of Thermodynamics, 43 (1), 63–87. doi:

  2. Rusanov, A., Rusanov, R., Klonowicz, P., Lampart, P., Żywica, G., Borsukiewicz, A. (2021). Development and Experimental Validation of Real Fluid Models for CFD Calculation of ORC and Steam Turbine Flows. Materials, 14 (22), 6879. doi: 

  3. Rusanov, A. V., Solovey, V. V., Zipunnikov, M. M. (2021). Improvement of the membrane-free electrolysis process of hydrogen and oxygen production. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, 1, 117–122. doi: 

  4. Rusanov, A., Shubenko, A., Senetskyi, O., Babenko, O., Rusanov, R. (2019). Heating modes and design optimization of cogeneration steam turbines of powerful units of combined heat and power plant. Energetika, 65(1). doi: 

  5. Rusanov, A., Martynenko, G., Avramov, K., Martynenko, V. (2018). Detection of Accident Causes on Turbine-Generator Sets by Means of Numerical Simulations. 2018 IEEE 3rd International Conference on Intelligent Energy and Power Systems (IEPS). doi: 

  6. Rusanow, A. V., Lampart, P., Pashchenko, N. V., Rusanov, R. A. (2016). Modelling 3D Steam Turbine Flow Using Thermodynamic Properties of Steam Iapws-95. Polish Maritime Research, 23 (1), 61–67. doi: 

  7. Rusanov, A., Kosianova, A., Kosianov, D. (2015). Development of new partial steam distribution method for providing partial operating modes of powerful steam turbines. Eastern-European Journal of Enterprise Technologies, 6 (8 (78)), 24–28. doi: 

  8. Rusanov, A., Rusanov, R., Lampart, P. (2015). Designing and updating the flow part of axial and radial-axial turbines through mathematical modeling. Open Engineering, 5 (1), 399–410. doi: 

  9. Yershov, S. V., Rusanov, A. V., Yakovlev, V. A. (2007). Optimisation of turbomachinery blade shape using 3D viscous flow computations. Proceedings of the 7th European Conference on Turbomachinery: Fluid Dynamics and Thermodynamics, ETC 2007.

  10. Lampart, P., Yershov, S., Rusanov, A. (2005). Increasing flow efficiency of high-pressure and low-pressure steam turbine stages from numerical optimization of 3D blading. Engineering Optimization, 37 (2), 145–166. doi: 

  11. Lampart, P., Rusanov, A., Yershov, S., Marcinkowski, S., Gardzilewicz, A. (2005). Validation of a 3D RANS Solver With a State Equation of Thermally Perfect and Calorically Imperfect Gas on a Multi-Stage Low-Pressure Steam Turbine Flow. Journal of Fluids Engineering, 127 (1), 83–93. doi: 

  12. Lampart, P., Yershov, S., Rusanov, A., Szymaniak, M. (2004). Tip Leakage/Main Flow Interactions in Multi-Stage HP Turbines With Short-Height Blading. Volume 5: Turbo Expo 2004, Parts A and B. doi: