Add to ORKGA finite-element Galerkin formulation was employed to study the attenuation of acoustic waves propagating in two-dimensional S-curved ducts with absorbing walls without a mean flow. The reflection and transmission at the entrance and the exit of a curved duct were determined by coupling the finite-element solutions in the curved duct to the eigenfunctions of an infinite, uniform, hard wall duct. In the frequency range where the duct height and acoustic wave length are nearly equal, the effects of duct length, curvature (duct offset) and absorber thickness were examined. For a given offset in the curved duct, the length of the S-duct was found to significantly affect both the absorptive and reflective characteristics of the duct. A means of ...
In two wind tunnels used for the two-dimensional airfoil tests, each wall above and below the model ...
Linearized wave equation with associated boundary conditions for predicting sound attenuation in sof...
Investigations involving artificial excitation of various shear flows are reviewed. Potential applic...
A finite-element Galerkin formulation has been developed to study attenuation of transverse magnetic...
A finite element model was developed to solve for the acoustic pressure field in a nonhomogeneous re...
An experimental program in which the effectiveness of a single large eddy break up (LEBU) blade is e...
Existing interior noise reduction techniques for aircraft fuselages perform reasonably well at highe...
The acoustic fields and transmission losses produced in semi-infinite circular ducts with peripheral...
Proper acoustic excitation of a single large-eddy break-up device can increase the resulting drag re...
Mathematical model for two-dimensional, long-wave propagation in curved acoustic ducts determining v...
For steady multidimesional convection, the Quadratic Upstream Interpolation for Convective Kinematic...
The acoustical properties of locally and nonlocally reacting acoustical liners in grazing flow are d...
Closed-form equations for the lift, drag, and pitching moment coefficients of two dimensional airfoi...
Experimental results are presented for the effects of Mach number, Reynolds number, and corner angle...
A two dimensional study is presented on the behavior of long waves in lined, curved ducts. The analy...
In two wind tunnels used for the two-dimensional airfoil tests, each wall above and below the model ...
Linearized wave equation with associated boundary conditions for predicting sound attenuation in sof...
Investigations involving artificial excitation of various shear flows are reviewed. Potential applic...
A finite-element Galerkin formulation has been developed to study attenuation of transverse magnetic...
A finite element model was developed to solve for the acoustic pressure field in a nonhomogeneous re...
An experimental program in which the effectiveness of a single large eddy break up (LEBU) blade is e...
Existing interior noise reduction techniques for aircraft fuselages perform reasonably well at highe...
The acoustic fields and transmission losses produced in semi-infinite circular ducts with peripheral...
Proper acoustic excitation of a single large-eddy break-up device can increase the resulting drag re...
Mathematical model for two-dimensional, long-wave propagation in curved acoustic ducts determining v...
For steady multidimesional convection, the Quadratic Upstream Interpolation for Convective Kinematic...
The acoustical properties of locally and nonlocally reacting acoustical liners in grazing flow are d...
Closed-form equations for the lift, drag, and pitching moment coefficients of two dimensional airfoi...
Experimental results are presented for the effects of Mach number, Reynolds number, and corner angle...
A two dimensional study is presented on the behavior of long waves in lined, curved ducts. The analy...
In two wind tunnels used for the two-dimensional airfoil tests, each wall above and below the model ...
Linearized wave equation with associated boundary conditions for predicting sound attenuation in sof...
Investigations involving artificial excitation of various shear flows are reviewed. Potential applic...