Investigation of Flow through a Labyrinth Seal

Investigation of Flow through a Labyrinth Seal

Growing performance requirements for gas turbines have led to a continuous increase in gas temperature and pressure ratios. Together with the resulting increase in cooling flows, this requires more and more minimization and control of internal gas leaks. To meet future performance goals, the applica...

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Veröffentlicht in:INCAS bulletin 2021-06, Vol.13 (2), p.51-58
Hauptverfasser: ENACHE, Marius, CARLANESCU, Razvan, MANGRA, Andreea, FLOREAN, Florin, KUNCSER, Radu
Format: Artikel
Sprache:eng
Schlagworte:
Air masses
Air temperature
Calculus
computational fluid dynamics (cfd)
Cooling flows (astrophysics)
Design
Experiments
Flow characteristics
Fluid dynamics
Gas temperature
Gas turbine engines
Gas turbines
Gases
Geometry
labyrinth seal
Labyrinth seals
leakage flow
Low pressure
Mass flow
Optimization techniques
Research methodology
Teeth
Temperature
turbo-machinery
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Beschreibung
Zusammenfassung:Growing performance requirements for gas turbines have led to a continuous increase in gas temperature and pressure ratios. Together with the resulting increase in cooling flows, this requires more and more minimization and control of internal gas leaks. To meet future performance goals, the application of a new seal design and an improved understanding of leakage flow characteristics are of particular importance. The air mass flow through a labyrinth seal designed for a low-pressure turbine has been determined both through analytical calculus and CFD modeling. Different radial clearances and different air temperatures have been considered. In the next stage, the results will be validated through experiments.
ISSN:2066-8201
2247-4528
DOI:10.13111/2066-8201.2021.13.2.6