Publications
Pressure loading within rectangular cavities with and without a captive store
Simulations of a rectangular cavity containing a model captive store are performed using a Hybrid Reynolds-averaged Navier-Stokes/Large Eddy Simulation (RANS/LES) model. The fluid flow simulations are coupled to a structural dynamics finite element model using a one-way pressure transfer procedure. Simulation results for pressure fluctuation spectra and store acceleration are compared to measurements made on the same configuration in a tri-sonic wind tunnel at Mach numbers of 0.60, 0.80, and 1.47. The simulation results are used to calculate unsteady integrated forces and moments acting on the store. Spectra of the forces and moments reveal that a complex relationship exists between the unsteady integrated forces and the measured resonant cavity modes as indicated in the cavity wall pressure measurements. Predictions of the store accelerations from the coupled model show some success in predicting both forced and natural modal responses of the store within the cavity environment, while also highlighting some challenges in obtaining statistically converged results for this class of problems.