An investigation has been conducted in the Langley full-scale tunnel to determine the parasite drag of five production-type helicopter rotor hubs. Some simple fairing arrangements were attempted in an effort to reduce the hub drag. The results indicate that, within the range of the tests, changes in angle of attack, hub rotational speed, and forward speed generally had only a small effect on the equivalent flat-plate area representing parasite drag. The drag coefficients of the basic hubs, based on projected hub frontal area, increased with hub area and varied from 0.5 to 0.76 for the hubs tested
The Rotor Systems Research Aircraft (RSRA) is a compound helicopter that was test flown as a fixed w...
The paper reports investigation of the aerodynamic performance of different hub fairing shapes and c...
Measurements of the time-averaged induced velocities were obtained for rotor tip speeds as great as ...
An investigation was conducted in the Langley full-scale tunnel to determine the drag characteristic...
Wind tunnel investigation of drag and static stability characteristics of four helicopter fuselage m...
It is estimated that the rotor hub of a helicopter is responsible for up to 30% of the parasite drag...
Longitudinal aerodynamic characteristics of two full-scale helicopter fuselage model
Experimental data are presented for the parasite drag of various helicopter fuselage components, suc...
Wind-tunnel tests of a heavy-class helicopter model were carried out to evaluate the effectiveness o...
Drag caused by separated flow behind the hub of a helicopter has an adverse effect on aerodynamic pe...
This paper presents the methodology for the rapid estimation of the single rotor helicopter parasite...
The average velocity of helicopter blades relative to the air is greater than that of airplane wings...
The rotor hub is one of the most important components of the modern helicopter. This complex collect...
Rough conventional, smooth conventional, and laminar-flow or low-drag sections were tested. The item...
The present paper describes results of wind tunnel experiments obtained during a research programme ...
The Rotor Systems Research Aircraft (RSRA) is a compound helicopter that was test flown as a fixed w...
The paper reports investigation of the aerodynamic performance of different hub fairing shapes and c...
Measurements of the time-averaged induced velocities were obtained for rotor tip speeds as great as ...
An investigation was conducted in the Langley full-scale tunnel to determine the drag characteristic...
Wind tunnel investigation of drag and static stability characteristics of four helicopter fuselage m...
It is estimated that the rotor hub of a helicopter is responsible for up to 30% of the parasite drag...
Longitudinal aerodynamic characteristics of two full-scale helicopter fuselage model
Experimental data are presented for the parasite drag of various helicopter fuselage components, suc...
Wind-tunnel tests of a heavy-class helicopter model were carried out to evaluate the effectiveness o...
Drag caused by separated flow behind the hub of a helicopter has an adverse effect on aerodynamic pe...
This paper presents the methodology for the rapid estimation of the single rotor helicopter parasite...
The average velocity of helicopter blades relative to the air is greater than that of airplane wings...
The rotor hub is one of the most important components of the modern helicopter. This complex collect...
Rough conventional, smooth conventional, and laminar-flow or low-drag sections were tested. The item...
The present paper describes results of wind tunnel experiments obtained during a research programme ...
The Rotor Systems Research Aircraft (RSRA) is a compound helicopter that was test flown as a fixed w...
The paper reports investigation of the aerodynamic performance of different hub fairing shapes and c...
Measurements of the time-averaged induced velocities were obtained for rotor tip speeds as great as ...