Numerical investigation on body-wake flow interaction over rod–airfoil configuration

Abstract: Numerical investigations of body-wake interactions were carried out by simulating the flow over a rod-airfoil configuration using high-order implicit large eddy simulation (HILES) for the incoming velocity U ∞ = 72 m s −1 and a Reynolds number based on the airfoil chord 4.8 × 10 5 . The flow over five different rod-airfoil configurations with different distances of L/d = 2, 4, 6, 8 and 10, respectively, were calculated for the analysis of body-wake interaction phenomena. Various fundamental mechanisms dictatin… Show more

“…6, in which the spanwise coordinate has been non-dimensionalized with rod diameter D. The fine case is shown to produce good agreement against other experimental measurements on isolated rod at subcritical Reynolds number range [42,47]. The discrepancies that are present might be attributed to the weak feedback from the airfoil downstream as observed by Jiang et al [15].…”

“…The forces are expressed as lift and drag coefficients with respect to the local coordinate system. The rod C D,mean is within the expectation of an isolated rod [41,47] and the rod in the RAC [15]. The mean lift and drag on all blades are almost identical, except for the central blade that is under the rod wake influence.…”

“…18 (i) since the rod-central blade separation is 8D in present case. The rod of the RLC also show very similar pressure distribution compared to that of the RAC [15,54], which may imply that the cascade of the RLC does not affect the rod differently than that of the RAC.…”

“…18. Jiang et al [15] has previously observed that as the separation between the rod and the downstream body becomes larger than 6D, the rod pressure distribution approaches that of an isolated rod. This is consistent with the present result in Fig.…”

“…The rod-airfoil configuration (RAC) has been quoted to be suitable for emulating the rotor-stator interaction mechanism due to the quasi-tonal and broadband excitation induced by the rod wake onto the airfoil [7,8,[10][11][12]. The classical RAC consists of a rod positioned upstream of an airfoil, and it was introduced as a benchmark configuration for computational aeroacoustics (CAA) studies on turbulent wake-body interaction [7,[13][14][15][16]. However, there are various features inherent of the rotor-stator aeroacoustics which are absent in the RAC due to the usage of the isolated, symmetrical airfoil; two among which will be addressed in this manuscript.…”

A rod-linear cascade model for emulating rotor-stator interaction noise in turbofans: A numerical study

“…6, in which the spanwise coordinate has been non-dimensionalized with rod diameter D. The fine case is shown to produce good agreement against other experimental measurements on isolated rod at subcritical Reynolds number range [42,47]. The discrepancies that are present might be attributed to the weak feedback from the airfoil downstream as observed by Jiang et al [15].…”

“…The forces are expressed as lift and drag coefficients with respect to the local coordinate system. The rod C D,mean is within the expectation of an isolated rod [41,47] and the rod in the RAC [15]. The mean lift and drag on all blades are almost identical, except for the central blade that is under the rod wake influence.…”

“…18 (i) since the rod-central blade separation is 8D in present case. The rod of the RLC also show very similar pressure distribution compared to that of the RAC [15,54], which may imply that the cascade of the RLC does not affect the rod differently than that of the RAC.…”

“…18. Jiang et al [15] has previously observed that as the separation between the rod and the downstream body becomes larger than 6D, the rod pressure distribution approaches that of an isolated rod. This is consistent with the present result in Fig.…”

“…The rod-airfoil configuration (RAC) has been quoted to be suitable for emulating the rotor-stator interaction mechanism due to the quasi-tonal and broadband excitation induced by the rod wake onto the airfoil [7,8,[10][11][12]. The classical RAC consists of a rod positioned upstream of an airfoil, and it was introduced as a benchmark configuration for computational aeroacoustics (CAA) studies on turbulent wake-body interaction [7,[13][14][15][16]. However, there are various features inherent of the rotor-stator aeroacoustics which are absent in the RAC due to the usage of the isolated, symmetrical airfoil; two among which will be addressed in this manuscript.…”

A rod-linear cascade model for emulating rotor-stator interaction noise in turbofans: A numerical study

Simplified weighting formulations of weighted compact nonlinear schemes for compressible flows

Numerical Simulations of the Flow Dynamics Past an Oscillating Rod-Airfoil Configuration