An overset grid thin-layer Navier-Stokes code has been extended to include dynamic motion of helicopter rotor blades through relative grid motion. The unsteady flowfield and airloads on an AH-IG rotor in forward flight were computed to verify the methodology and to demonstrate the method's potential usefulness towards comprehensive helicopter codes. In addition, the method uses the blade's first harmonics measured in the flight test to prescribe the blade motion. The solution was impulsively started and became periodic in less than three rotor revolutions. Detailed unsteady numerical flow visualization techniques were applied to the entire unsteady data set of five rotor revolutions and exhibited flowfield features such as blade vortex inte...
AbstractA numerical method based on solutions of Euler/Navier-Stokes (N-S) equations is developed fo...
A numerical method is presented for calculating the three-dimensional unsteady, transonic flow past ...
A framework is developed for the computational fluid dynamics (CFD) analyses of a series of helicopt...
This study presents the outcomes of a series of computational fluid dynamics analyses conducted to o...
[Abstract] A method of unstructured dynamic overset grids is developed for the simulation of rotor f...
The flowfield around a helicopter rotor in forward flight is intrinsically unsteady and contains ma...
The growing application of computational aerodynamics to nonlinear rotorcraft problems is outlined, ...
AbstractA hybrid Euler/full potential/Lagrangian wake method, based on single-blade simulation, for ...
Actuator Disks (AD) can provide characterizations of rotor wakes while reducing computational expens...
Flowfields around helicopters contain complex flow features such as large separated flow regions, vo...
This paper summarizes a method that solves both the three dimensional thin-layer Navier-Stokes equat...
A robust unsteady rotor flowfield solver CLORNS code is established to predict the complex unsteady ...
AbstractTwo methods for calculating the wake geometry and blade loads for a hovering helicopter roto...
A computational method was developed to treat unsteady aerodynamic interactions between a helicopter...
The growing application of computational aerodynamics to nonlinear helicopter problems is outlined, ...
AbstractA numerical method based on solutions of Euler/Navier-Stokes (N-S) equations is developed fo...
A numerical method is presented for calculating the three-dimensional unsteady, transonic flow past ...
A framework is developed for the computational fluid dynamics (CFD) analyses of a series of helicopt...
This study presents the outcomes of a series of computational fluid dynamics analyses conducted to o...
[Abstract] A method of unstructured dynamic overset grids is developed for the simulation of rotor f...
The flowfield around a helicopter rotor in forward flight is intrinsically unsteady and contains ma...
The growing application of computational aerodynamics to nonlinear rotorcraft problems is outlined, ...
AbstractA hybrid Euler/full potential/Lagrangian wake method, based on single-blade simulation, for ...
Actuator Disks (AD) can provide characterizations of rotor wakes while reducing computational expens...
Flowfields around helicopters contain complex flow features such as large separated flow regions, vo...
This paper summarizes a method that solves both the three dimensional thin-layer Navier-Stokes equat...
A robust unsteady rotor flowfield solver CLORNS code is established to predict the complex unsteady ...
AbstractTwo methods for calculating the wake geometry and blade loads for a hovering helicopter roto...
A computational method was developed to treat unsteady aerodynamic interactions between a helicopter...
The growing application of computational aerodynamics to nonlinear helicopter problems is outlined, ...
AbstractA numerical method based on solutions of Euler/Navier-Stokes (N-S) equations is developed fo...
A numerical method is presented for calculating the three-dimensional unsteady, transonic flow past ...
A framework is developed for the computational fluid dynamics (CFD) analyses of a series of helicopt...