A rotor CFD solver is developed for simulating the aerodynamic interaction phenomenon among rotor, wing and fuselage of a tilt rotor aircraft in its helicopter mode. The unsteady Navier–Stokes equations are discretized in inertial frame and embedded grid system is adopted for describing the relative motion among blades and nacelle/wing/fuselage. A combination of multi-layer embedded grid and “extended hole fringe” technique is complemented in original grid system to tackle grid assembly difficulties arising from the narrow space among different aerodynamic components, and to improve the interpolation precision by decreasing the cell volume discrepancy among different grid blocks. An overall donor cell searching and automatic hole cutting te...
AbstractIn order to calculate the unsteady aerodynamic characteristics of a tilt-rotor in a conversi...
Rotor-fuselage interaction is central to the design and performance analysis of helicopters. However...
In this paper we present the aerodynamic simulation of a complex rotor/fuselage configuration perfor...
AbstractA rotor CFD solver is developed for simulating the aerodynamic interaction phenomenon among ...
[Abstract] A method of unstructured dynamic overset grids is developed for the simulation of rotor f...
Unsteady flow simulations of complete helicopter configurations were conducted, and the flow fields ...
Abstract: Aerodynamic characteristics of a 5-seater helicopter with different rotor configuration (i...
Aerodynamic interactions between the main rotor, fuselage, and tail rotor must be considered during ...
In this paper, helicopter rotor blades are analysed in hover using computational fluid dynamics (CFD...
AbstractA method combining rotor actuator disk model and embedded grid technique is presented in thi...
The helicopter is a very versatile flying machine that is often required to operate in confined area...
In the present work, the aerodynamic interaction between the rotor wake and the wing on a high-perfo...
In order to calculate the unsteady aerodynamic characteristics of a tilt-rotor in a conversion mode,...
The flow field around a simplified Quad Tilt Rotor (QTR) vehicle is simulated using com-putational f...
A framework is described and demonstrated for CFD analysis of helicopter rotors in hover and forward...
AbstractIn order to calculate the unsteady aerodynamic characteristics of a tilt-rotor in a conversi...
Rotor-fuselage interaction is central to the design and performance analysis of helicopters. However...
In this paper we present the aerodynamic simulation of a complex rotor/fuselage configuration perfor...
AbstractA rotor CFD solver is developed for simulating the aerodynamic interaction phenomenon among ...
[Abstract] A method of unstructured dynamic overset grids is developed for the simulation of rotor f...
Unsteady flow simulations of complete helicopter configurations were conducted, and the flow fields ...
Abstract: Aerodynamic characteristics of a 5-seater helicopter with different rotor configuration (i...
Aerodynamic interactions between the main rotor, fuselage, and tail rotor must be considered during ...
In this paper, helicopter rotor blades are analysed in hover using computational fluid dynamics (CFD...
AbstractA method combining rotor actuator disk model and embedded grid technique is presented in thi...
The helicopter is a very versatile flying machine that is often required to operate in confined area...
In the present work, the aerodynamic interaction between the rotor wake and the wing on a high-perfo...
In order to calculate the unsteady aerodynamic characteristics of a tilt-rotor in a conversion mode,...
The flow field around a simplified Quad Tilt Rotor (QTR) vehicle is simulated using com-putational f...
A framework is described and demonstrated for CFD analysis of helicopter rotors in hover and forward...
AbstractIn order to calculate the unsteady aerodynamic characteristics of a tilt-rotor in a conversi...
Rotor-fuselage interaction is central to the design and performance analysis of helicopters. However...
In this paper we present the aerodynamic simulation of a complex rotor/fuselage configuration perfor...