UHBR Open-test-case fan ECL5/Catana, Part 2: Mechanical and aeroelastic stability analysis

Pagès, Valdo; Duquesne, Pierre; Ottavy, Xavier; Ferrand, Pascal; Aubert, Stéphane; Blanc, Laurent; Brandstetter, Christoph

doi:10.29008/etc2021-625

Cited by 8 publications

(14 citation statements)

References 21 publications

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“…11% and 88% axial chord respectively). FEM calculations (as shared with the opentest-case geometry [7]) indicate a stagger angle of 60.3 • at 55% speed, slightly opening to 60 • at 100% speed.…”

Section: Stagger Anglementioning

confidence: 98%

“…The primary reason for deviations from design is the difference between the manufac-turing process and the used FEM model. The ACT module implemented in the commercial ANSYS Workbench 18.2 toolbox was used for all static and modal calculations and requires the assumption of layers perfectly parallel to the respective profile centerline, as described in [7]. In the fabricated geometry, layers follow the molded surfaces of the blade and meet at the centerline.…”

Section: System Symmetry Blade-to-blade Variation and Deviation From ...mentioning

confidence: 99%

“…Industrial practices to minimize the risk of flutter have been applied, which is in contrast to the complementary research program CA3VIAR [5]. The detailed design process was presented in [6,7]. It resulted in a 16-bladed carbon-fibre composite configuration with a relative design tip Mach number of 1.02 at a tip speed of 288 m/s, which is significantly lower than state-of-theart industrial UHBR configurations like the direct drive LEAP or GEnx, but also compared to the only in-service geared turbofan PW1000, promising extensive potential for noise reduction and improvement of propulsive efficiency.…”

Section: Introductionmentioning

confidence: 99%

“…Radial flow migration occurs and influences the aeroelastic behaviour [21]. For the ECL5 design, predictions were ambiguous [7,8] and vary dependent on the used method. The main objective is to clearly characterize the aerodynamic flow field and instability mechanism across the whole speed range.…”

Section: Introductionmentioning

confidence: 99%

“…Structurally, the first three fan-blade eigenmodes were designed according to industrial practices by varying the carbon fibre orientations. Fan blades have been fabricated from preimpregnated layers, which are cut, oriented and stacked according to the layup described in [7] and shown in Fig. 1(a).…”

Section: Introductionmentioning

confidence: 99%

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Experiments on Tuned UHBR Open-Test-Case Fan ECL5/CATANA: Performance and Aerodynamics

Schneider,

Fiquet,

Paoletti

et al. 2024

Journal of Turbomachinery

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With the advancement of modern fan architectures the lack of experimental benchmarks for the research community became apparent in recent years. Enormous effort in method development could not be validated on representative geometries and motivated the development of the open-test-case ECL5/CATANA. A carbon fibre fan stage has been designed by Ecole Centrale de Lyon and shared with the community in 2021. The fan is representative of modern UHBR architectures with sonic design speed. The reference configuration has been investigated experimentally with multi-physical instrumentation. In this publication the results of the first experimental campaign are presented with a detailed analysis of the aerodynamic performance and system symmetry. The presented results comprise full stage mappings across the whole operating range for three main speedlines (55%, 80% and 100%) using performance rakes, unsteady wallpressure arrays, tip-clearance and stagger-angle measurements. Radial profiles of intake boundary layer and rotor-exit conditions at selected conditions complete the full validation dataset for steady and unsteady aerodynamic simulations. Results are discussed in comparison to blind-test RANS simulations of different international institutes. Significant predicition inaccuracies of the tip flow and corner separations of the stator are observed and reveal the requirement of real-blade-geometry measurements at running conditions. This paper is accompanied by a publication with a focus on aeroelastic instabilities observed near the stability limit. The results represent a comprehensive dimensional benchmark dataset and allow method validation on multiple levels of fidelity for the aerodynamic and aeroelastic research community.

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Section: Stagger Anglementioning

confidence: 98%

Section: System Symmetry Blade-to-blade Variation and Deviation From ...mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Experiments on Tuned UHBR Open-Test-Case Fan ECL5/CATANA: Performance and Aerodynamics

Schneider,

Fiquet,

Paoletti

et al. 2024

Journal of Turbomachinery

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Impact of acoustic wave propagation characteristics on aerodynamic damping of rotor blades in a transonic axial compressor

YU,

WANG,

HAN

2024

Chinese Journal of Aeronautics

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Numerical Investigation of the Fan Flutter Mechanism Related to Acoustic Propagation Characteristics

Dong

Zhang

et al. 2022

Journal of Turbomachinery

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In this study, we numerically investigated the flutter mechanism related to acoustic propagation characteristics of a wide-chord fan rotor. We considered the first bending mode and its two and three nodal diameters traveling wave patterns. The unsteady disturbance induced by the blade vibration in the duct gradually changed from cut-off to cut-on mode by increasing the blade frequency. Flutter occurred in some specific frequency range. We observed the upstream cut-on and downstream cut-off condition with the risk of flutter. We found a new flutter risk frequency in which the blade frequency was less than the upstream cut-on frequency. The results showed that the effects of flow features and acoustic propagation characteristics on aeroelasticity were independent. To explain why flutter was more likely to occur near stall, we selected two sets of frequencies representing different acoustic propagation characteristics to carry out aeroelastic simulations for different working conditions along the same speed line. When flutter occurred, the suction side always provided positive damping, and the pressure side always provided negative damping. This study analyzed the effect of different flow features, such as shock and radial migration, in detail. The phase difference between the pressure fluctuations on the pressure side and the blade velocity played a vital role in fan flutter.

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UHBR Open-test-case fan ECL5/Catana, Part 2: Mechanical and aeroelastic stability analysis

Cited by 8 publications

References 21 publications

Experiments on Tuned UHBR Open-Test-Case Fan ECL5/CATANA: Performance and Aerodynamics

Experiments on Tuned UHBR Open-Test-Case Fan ECL5/CATANA: Performance and Aerodynamics

Impact of acoustic wave propagation characteristics on aerodynamic damping of rotor blades in a transonic axial compressor

Numerical Investigation of the Fan Flutter Mechanism Related to Acoustic Propagation Characteristics

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