Computer programs were developed to implement the computational scheme arising from Van Holten's asymptotic method for calculating airloads on a helicopter rotor blade in forward flight, and a similar technique which is based on a discretized version of the method. The basic outlines of the two programs are presented, followed by separate descriptions of the input requirements and output format. Two examples illustrating job entry with appropriate input data and corresponding output are included. Appendices contain a sample table of lift coefficient data for the NACA 0012 air foil and listings of the two programs
Rotor wake geometries are predicted by a process similar to the startup of a rotor in a free stream....
Airloads measured on a two-bladed helicopter rotor in flight during the Ames' Tip Aerodynamic and Ac...
A 3-D, quasi-steady, full potential flow solver was adapted to include realistic wake influence for ...
The numerical practicality of a matched asymptotic expansion approach for the computation of unstead...
Issued as Technical progress reports no. [1-6], and Final reports no. [1-4], Project no. E-16-61
The wake information from a helicopter forward flight code is coupled with two transonic potential r...
The development of an advanced computational analysis of unsteady aerodynamic loads on isolated heli...
The use of a computer program for a comprehensive analytical model of rotorcraft aerodynamics and dy...
The Rotor-Fuselage Analysis is a method of calculating the aerodynamic reaction between a helicopter...
Two different schemes are presented for including the effect of rotor wakes on the finite-difference...
An overset grid thin-layer Navier-Stokes code has been extended to include dynamic motion of helicop...
A mathematical model and computer program were implemented to study the main rotor free wake geometr...
A computer program developed to prepare wind tunnel generated airfoil data for input into helicopter...
AbstractTwo methods for calculating the wake geometry and blade loads for a hovering helicopter roto...
A lifting surface theory was developed for a helicopter rotor in forward flight for compressible and...
Rotor wake geometries are predicted by a process similar to the startup of a rotor in a free stream....
Airloads measured on a two-bladed helicopter rotor in flight during the Ames' Tip Aerodynamic and Ac...
A 3-D, quasi-steady, full potential flow solver was adapted to include realistic wake influence for ...
The numerical practicality of a matched asymptotic expansion approach for the computation of unstead...
Issued as Technical progress reports no. [1-6], and Final reports no. [1-4], Project no. E-16-61
The wake information from a helicopter forward flight code is coupled with two transonic potential r...
The development of an advanced computational analysis of unsteady aerodynamic loads on isolated heli...
The use of a computer program for a comprehensive analytical model of rotorcraft aerodynamics and dy...
The Rotor-Fuselage Analysis is a method of calculating the aerodynamic reaction between a helicopter...
Two different schemes are presented for including the effect of rotor wakes on the finite-difference...
An overset grid thin-layer Navier-Stokes code has been extended to include dynamic motion of helicop...
A mathematical model and computer program were implemented to study the main rotor free wake geometr...
A computer program developed to prepare wind tunnel generated airfoil data for input into helicopter...
AbstractTwo methods for calculating the wake geometry and blade loads for a hovering helicopter roto...
A lifting surface theory was developed for a helicopter rotor in forward flight for compressible and...
Rotor wake geometries are predicted by a process similar to the startup of a rotor in a free stream....
Airloads measured on a two-bladed helicopter rotor in flight during the Ames' Tip Aerodynamic and Ac...
A 3-D, quasi-steady, full potential flow solver was adapted to include realistic wake influence for ...