Specific features of the flow structure in a reactive type turbine stage
Autor: | E. Yu. Semakina, V. A. Chernikov |
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Rok vydání: | 2017 |
Předmět: |
Physics
Coordinate system Energy Engineering and Power Technology 02 engineering and technology Aerodynamics Mechanics 01 natural sciences Turbine 010305 fluids & plasmas Physics::Fluid Dynamics Cross section (physics) 020401 chemical engineering Nuclear Energy and Engineering Flow (mathematics) Control theory 0103 physical sciences Vector field Stage (hydrology) 0204 chemical engineering Interpolation |
Zdroj: | Thermal Engineering. 64:288-294 |
ISSN: | 1555-6301 0040-6015 |
DOI: | 10.1134/s0040601517040012 |
Popis: | The results of experimental studies of the gas dynamics for a reactive type turbine stage are presented. The objective of the studies is the measurement of the 3D flow fields in reference cross sections, experimental determination of the stage characteristics, and analysis of the flow structure for detecting the sources of kinetic energy losses. The integral characteristics of the studied stage are obtained by averaging the results of traversing the 3D flow over the area of the reference cross sections before and behind the stage. The averaging is performed using the conservation equations for mass, total energy flux, angular momentum with respect to the axis z of the turbine, entropy flow, and the radial projection of the momentum flux equation. The flow parameter distributions along the channel height behind the stage are obtained in the same way. More thorough analysis of the flow structure is performed after interpolation of the experimentally measured point parameter values and 3D flow velocities behind the stage. The obtained continuous velocity distributions in the absolute and relative coordinate systems are presented in the form of vector fields. The coordinates of the centers and the vectors of secondary vortices are determined using the results of point measurements of velocity vectors in the cross section behind the turbine stage and their subsequent interpolation. The approach to analysis of experimental data on aerodynamics of the turbine stage applied in this study allows one to find the detailed space structure of the working medium flow, including secondary coherent vortices at the root and peripheral regions of the air-gas part of the stage. The measured 3D flow parameter fields and their interpolation, on the one hand, point to possible sources of increased power losses, and, on the other hand, may serve as the basis for detailed testing of CFD models of the flow using both integral and local characteristics. The comparison of the numerical and experimental results, as regards local characteristics, using statistical methods yields the quantitative estimate of their agreement. |
Databáze: | OpenAIRE |
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