Add to ORKGThe state-of-the-art in rotor blade drag prediction involves the use of two-dimensional airfoil tables to calculate the drag force on the blade. One of the most serious problems with the current methods is that they cannot be used for airfoils that have yet to be tested. Most of the drag prediction methods also do not take the Reynolds number or the rotational effects of the blade into account, raising doubts about the accuracy of the results. These problems are addressed with the development of an analytical method which includes the shape of airfoil, the effects of Reynolds number, and the rotational motion of the blade
In this project, the various components of drag are obtained. Two cases are considered here – the tr...
A three-dimensional code for rotating blade-row flow analysis was developed. The space discretizatio...
A new aerodynamic force of drag prediction approach was developed to compute the airfoil drag via en...
An improved formulation of drag estimation for thick airfoils is presented. Drag underprediction in ...
A three-dimensional viscous-inviscid interaction analysis was developed to predict the performance o...
Rotor wake geometries are predicted by a process similar to the startup of a rotor in a free stream....
A momentum balance approach is used to extract the drag from flowfield computations for wings and wi...
A method is presented to design and predict the performance of axial flow rotors operating in a duct...
Results from the Viscous Transonic Airfoil Workshop are compared with each other and with experiment...
A 3-D flow analysis code was used to compute the design speed operating line of a transonic fan roto...
The flow in turbomachine blade passages is three-dimensional (3D), viscous and unsteady. Each of the...
The analytical approaches as well as the capabilities of three advanced analyses for predicting prop...
A 3-D unsteady panel method has been successfully used to predict the flow field around helicopter r...
In this computer-aided study, existing methods of determining the fluid flow in axial flow turbomach...
The development and application of a three-dimensional (3D) inverse methodology is presented for the...
In this project, the various components of drag are obtained. Two cases are considered here – the tr...
A three-dimensional code for rotating blade-row flow analysis was developed. The space discretizatio...
A new aerodynamic force of drag prediction approach was developed to compute the airfoil drag via en...
An improved formulation of drag estimation for thick airfoils is presented. Drag underprediction in ...
A three-dimensional viscous-inviscid interaction analysis was developed to predict the performance o...
Rotor wake geometries are predicted by a process similar to the startup of a rotor in a free stream....
A momentum balance approach is used to extract the drag from flowfield computations for wings and wi...
A method is presented to design and predict the performance of axial flow rotors operating in a duct...
Results from the Viscous Transonic Airfoil Workshop are compared with each other and with experiment...
A 3-D flow analysis code was used to compute the design speed operating line of a transonic fan roto...
The flow in turbomachine blade passages is three-dimensional (3D), viscous and unsteady. Each of the...
The analytical approaches as well as the capabilities of three advanced analyses for predicting prop...
A 3-D unsteady panel method has been successfully used to predict the flow field around helicopter r...
In this computer-aided study, existing methods of determining the fluid flow in axial flow turbomach...
The development and application of a three-dimensional (3D) inverse methodology is presented for the...
In this project, the various components of drag are obtained. Two cases are considered here – the tr...
A three-dimensional code for rotating blade-row flow analysis was developed. The space discretizatio...
A new aerodynamic force of drag prediction approach was developed to compute the airfoil drag via en...