The development of marine power engineering and automation, due to qualitative and quantitative changes by a significant increase in the capacity of modern power plants is considered in the paper. The object of this study is the flow part of a low-consumption inflow turbine, the subject of the study is the loss of kinetic energy in the stage of a low-consumption inflow turbine. The method of investigation is numerical simulation of gas flow using computational gas dynamics; the purpose of the study is to compare the values of kinetic energy loss coefficients in the nozzle diaphragm, impeller and output velocity losses obtained during physical and numerical experiments. The main objective of the study is to compare the values of kinetic energy loss coefficients in the turbine stage obtained during a physical experiment with the results of a numerical experiment. It is noted that low-consumption turbines are characterized by small dimensions, which do not allow to fully carrying out a physical experiment. A balance of losses of a low-consumption inflow turbine is performed in the study. A good convergence of the loss coefficients values obtained by the numerical method with the results of the physical experiment has been established. Conclusions about the possibility of applying numerical modeling for identical types of turbine stages are made.