论文信息 - Body Force Modeling of the Aerodynamics of a Low-Speed Fan under Distorted Inflow †

Body Force Modeling of the Aerodynamics of a Low-Speed Fan under Distorted Inflow †

New propulsive concepts, such as boundary layer ingestion, involve stronger interactions between the engine and its environment, and are thus more complex flows compared to classical architectures. Usual turbomachinery design tools are inadequate, and new numerical methodologies are needed to accurately predict the engine performance with affordable CPU resources. The present paper examines the relevance of a reduced-order modeling approach—the body force modeling (BFM) method—for a low-speed cooling fan with inflow distortion. The formulation itself accounts for the blade metal blockage and compressibility effects, and it relies on a semiempirical loss model, independent of computational fluid dynamics (CFD) calibration. The BFM results obtained in the present work are assessed against full-annulus unsteady Reynolds-averaged Navier-Stokes (URANS) results and experiments. The comparison shows that the BFM approach successfully quantifies the fan stage performance. Furthermore, the distortion transfer across the stage is examined and the flow patterns observed are found to be the same as in the URANS results and in the measurements. Hence, this methodology, coming at a low CPU cost, is well-adapted to the early design phase of an innovative propulsion system.

[1] Guillaume Dufour,et al. Theoretical Analysis of the Aerodynamics of Low-Speed Fans in Free and Load-Controlled Windmilling Operation , 2015 .

[2] Yifang Gong,et al. A computational model for rotating stall and inlet distortions in multistage compressors , 1999 .

[3] Becky Rose,et al. Ultra-Short Nacelles for Low Fan Pressure Ratio Propulsors , 2014 .

[4] Edward M. Greitzer,et al. Analysis of Fan Stage Conceptual Design Attributes for Boundary Layer Ingestion , 2017 .

[5] Jeff Defoe,et al. Shock Propagation and MPT Noise From a Transonic Rotor in Nonuniform Flow , 2011 .

[6] Meng-Sing Liou,et al. Flow simulation and optimal shape design of N3-X hybrid wing body configuration using a body force method , 2017 .

[7] Cesare A. Hall,et al. Aerodynamics of Boundary Layer Ingesting Fans , 2014 .

[8] Frank E. Marble. Section C. Three-Dimensional Flow in Turbomachines , 1964 .

[9] L. Cambier,et al. elsA - An efficient object-oriented solution to CFD complexity , 2002 .

[10] Mark Drela,et al. Boundary Layer Ingestion Benefit of the D8 Transport Aircraft , 2017 .

[11] Nicolas Binder,et al. Generic Properties of Flows in Low-Speed Axial Fans Operating at Load-Controlled Windmill , 2018, Journal of Turbomachinery.