Aerodynamic performance of an un-located high-pressure turbine rotor

Abstract: The rotor sub-assembly of the high-pressure turbine of a modern turbofan engine is typically free to move downstream because of the force imbalance acting on the disc and blades following an un-located shaft failure. This downstream movement results in a change in the geometry of the rotor blade, tip seals and rim/platform seals because of the interaction of the rotor sub-assembly with the downstream vane sub-assembly. Additionally, there is a change in the leakage flow properties, which mix with the main flow… Show more

“…For this reason, the performance is penalized as a function of rotor dislocation and rotor speed. The performance penalty is applied as a scaling factor during the analysis with the magnitude of the factor coming from a parallel activity aimed at characterizing the turbine as a function of axial displacement (20)(21)(22) . This work was aimed at providing full overspeed characteristics of a high-pressure turbine during an unlocated shaft failure, and was based on steady CFD.…”

Multidisciplinary methodology for turbine overspeed analysis

“…For this reason, the performance is penalized as a function of rotor dislocation and rotor speed. The performance penalty is applied as a scaling factor during the analysis with the magnitude of the factor coming from a parallel activity aimed at characterizing the turbine as a function of axial displacement (20)(21)(22) . This work was aimed at providing full overspeed characteristics of a high-pressure turbine during an unlocated shaft failure, and was based on steady CFD.…”

Multidisciplinary methodology for turbine overspeed analysis

Characterisation of turbine behaviour for an engine overspeed prediction model