Numerical simulation of a very small amplitude acoustic wave interacting with a shock wave in a quasi-1D convergent-divergent nozzle is performed using an unstructured finite volume algorithm with a piece-wise linear, least square reconstruction, Roe flux difference splitting, and second-order MacCormack time marching. First, the spatial accuracy of the algorithm is evaluated for steady flows with and without the normal shock by running the simulation with a sequence of successively finer meshes. Then the accuracy of the Roe flux difference splitting near the sonic transition point is examined for different reconstruction schemes. Finally, the unsteady numerical solutions with the acoustic perturbation are presented and compared with linear...
Direct numerical simulations are used to investigate transonic flow acoustic resonance in an open ca...
This thesis presents a time-conservative finite-volume method based on a modern flow simulation tech...
This research aims to improve the modeling of stationary and moving shock waves by adding an unstead...
The numerical study of aeroacoustic problems places stringent demands on the choice of a computation...
Topics covered include: Low-dispersion scheme for nonlinear acoustic waves in nonuniform flow; Compu...
The suitability of Roe-type upwind schemes for the computation of steady quasi-1D flows of non-ideal...
An explicit time/space finite difference procedure is used to model the propagation of sound in a qu...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76586/1/AIAA-1993-3382-851.pd
One of the challenges in the computational fluid dynamics area is the accurate calculation of aeroac...
Numerical simulations of two classes of unsteady flows are obtained via the Navier-Stokes equations:...
In computational acoustics, fluid-acoustic coupling methods for the computation of sound have been w...
We present direct numerical simulations of the shock wave boundary layer interaction (SBLI) at Mach ...
The results of this thesis demonstrate that direct numerical simulation can predict sound generation...
At pressure ratios lower than the design value, convergent-divergent (C-D) nozzles often undergo a f...
Accurate nonreflecting or radiation boundary conditions are important for effective computation of a...
Direct numerical simulations are used to investigate transonic flow acoustic resonance in an open ca...
This thesis presents a time-conservative finite-volume method based on a modern flow simulation tech...
This research aims to improve the modeling of stationary and moving shock waves by adding an unstead...
The numerical study of aeroacoustic problems places stringent demands on the choice of a computation...
Topics covered include: Low-dispersion scheme for nonlinear acoustic waves in nonuniform flow; Compu...
The suitability of Roe-type upwind schemes for the computation of steady quasi-1D flows of non-ideal...
An explicit time/space finite difference procedure is used to model the propagation of sound in a qu...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76586/1/AIAA-1993-3382-851.pd
One of the challenges in the computational fluid dynamics area is the accurate calculation of aeroac...
Numerical simulations of two classes of unsteady flows are obtained via the Navier-Stokes equations:...
In computational acoustics, fluid-acoustic coupling methods for the computation of sound have been w...
We present direct numerical simulations of the shock wave boundary layer interaction (SBLI) at Mach ...
The results of this thesis demonstrate that direct numerical simulation can predict sound generation...
At pressure ratios lower than the design value, convergent-divergent (C-D) nozzles often undergo a f...
Accurate nonreflecting or radiation boundary conditions are important for effective computation of a...
Direct numerical simulations are used to investigate transonic flow acoustic resonance in an open ca...
This thesis presents a time-conservative finite-volume method based on a modern flow simulation tech...
This research aims to improve the modeling of stationary and moving shock waves by adding an unstead...