Volume 2D: Turbomachinery 2020
DOI: 10.1115/gt2020-16065
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A Numerical Investigation Into Secondary Flows at the Inlet to a Low-Pressure Compressor Transition Duct

Abstract: To reduce fuel-burn and CO2 emissions from aero gas turbines there is a drive towards very-high bypass ratio and smaller ultra-high-pressure ratio core engine technologies. However, this makes the design of the ducts connecting various compressor spools more challenging as the larger required radius change increases their aerodynamic loading. This is exacerbated for the duct which feeds the engine core as it must accept the relatively low-quality flow produced by the fan root. This is characterised by a hub-lo… Show more

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Cited by 4 publications
(9 citation statements)
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“…accelerating). Relative to other duct studies, the geometrical parameters suggest a modest level of aerodynamic loading but as highlighted by Walker et al [1] and Tsakmakidou et al [12] the true aerodynamic loading is more a function of the hub-low pressure profile and secondary flows delivered by the fan root flow. The ESS is designed to be load bearing so, in addition to removing ~30° of swirl from the rotor efflux, the 48 ESS have a low aspect ratio (~0.7), a physically long chord and large thickness (t/c ~ 0.12).…”
Section: Datum Rotor Ess and Ductmentioning
confidence: 72%
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“…accelerating). Relative to other duct studies, the geometrical parameters suggest a modest level of aerodynamic loading but as highlighted by Walker et al [1] and Tsakmakidou et al [12] the true aerodynamic loading is more a function of the hub-low pressure profile and secondary flows delivered by the fan root flow. The ESS is designed to be load bearing so, in addition to removing ~30° of swirl from the rotor efflux, the 48 ESS have a low aspect ratio (~0.7), a physically long chord and large thickness (t/c ~ 0.12).…”
Section: Datum Rotor Ess and Ductmentioning
confidence: 72%
“…However, the experimental configuration used by Walker et al [1] did not produce representative rotor secondary flows and loss cores. Hence Tsakmakidou et al [12] built on the work by numerically examining the parameters which affect the generation of secondary flows through the rotor. The main aim of Tsakmakidou et al [12] was to design suitable modifications to the test rig compressor used by Walker et al [1] such that the rotor secondary flows were larger and more representative.…”
Section: Rolls-royce Plcmentioning
confidence: 99%
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