REDESIGN OF AN AXIAL COMPRESSOR WITH MASS FLOW REDUCTION OF 30

REDESIGN OF AN AXIAL COMPRESSOR WITH MASS FLOW REDUCTION OF 30

In this paper redesign process of an axial compressor of a Gas Turbine for mechanical drive is discussed together with computational results and experimental data. The goal of the project was to reduce compressor mass flow by 30% and at the same time to increase compressor specific work by about 10%...

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Veröffentlicht in:WIT Transactions on Ecology and the Environment 2019-01, Vol.222, p.93
Hauptverfasser: SEDUNIN, VIACHESLAV ALEKSEEVICH, YURII MIRONOVICH BRODOV, KOMAROV, OLEG VIACHESLAVOVICH, Blinov, Vitaliy Leonidovich, SKOROKHODOV, ALEXANDER VLADIMIROVICH, SERKOV, SERGEY ALEKSANDROVICH
Format: Artikel
Sprache:eng
Schlagworte:
Computer applications
Gas turbines
Guide vanes
Mass flow
Mechanical drives
Redesign
Stress concentration
Time compression
Turbocompressors
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Beschreibung
Zusammenfassung:In this paper redesign process of an axial compressor of a Gas Turbine for mechanical drive is discussed together with computational results and experimental data. The goal of the project was to reduce compressor mass flow by 30% and at the same time to increase compressor specific work by about 10%. This could not be achieved by conventional methods such as re-staggering of Inlet Guide Vanes. Throughflow and CFD calculations were performed for redesigned versions. As a result an updated compressor was produced for the real engine and achieved design objectives. This paper shows how the swept area distribution along the compressor affects stage loading distribution and surge limits.
ISSN:1746-448X
1743-3541
DOI:10.2495/EQ180091