A prior trade study established the effectiveness of using Active Flow Control (AFC) for reducing the mechanical complexities associated with a modern high-lift system without sacrificing aerodynamic performance at low-speed flight conditions representative of takeoff and landing. The current technical report expands on this prior work in two ways: (1) a refined conventional high-lift system based on the NASA Common Research Model (CRM) is presented that is more representative of modern commercial transport aircraft in terms of stall characteristics and maximum Lift/Drag (L/D) ratios at takeoff and landing-approach flight conditions; and (2) the design trade space for AFC-enabled high-lift systems is expanded to explore a wider range of opt...
In aerodynamics, the use of new and flexible tools for the design of supercritical wings is discusse...
The FAST-MAC circulation control model was modified to test an array of unsteady sweeping-jet actuat...
This document serves as the final report for the SMAAART AFC-Enabled Vertical Tail System Integratio...
This paper provides an overview of a research and development effort sponsored by the NASA Advanced ...
This study focuses on Active Flow Control methods used in conjunction with airplane high-lift system...
The benefits to high lift system maximum life and, alternatively, to high lift system complexity, of...
This project is a continuation of the NASA AFC-Enabled Simplified High-Lift System Integration Study...
NASA has had a long history in fundamental and applied high lift research. Current programs provide ...
A 10% scale version of the High-Lift Common Research Model (CRM-HL) was tested in the NASA Langley 1...
The viewgraphs and discussion of high lift needs and related aerodynamic goals established in system...
Numerical simulations have been performed for a simplified high-lift configuration that is represent...
The development of an advanced technology high lift system for an energy efficient transport incorpo...
The viewgraphs for a status report of the NASA Langley Reseach Center High Speed Civil Transport (HS...
Solutions were obtained with the Navier-Stokes CFD code TLNS3D to predict the flow about the NASA Tr...
A novel multielement trailing-edge flap system for light general aviation airplanes was conceived fo...
In aerodynamics, the use of new and flexible tools for the design of supercritical wings is discusse...
The FAST-MAC circulation control model was modified to test an array of unsteady sweeping-jet actuat...
This document serves as the final report for the SMAAART AFC-Enabled Vertical Tail System Integratio...
This paper provides an overview of a research and development effort sponsored by the NASA Advanced ...
This study focuses on Active Flow Control methods used in conjunction with airplane high-lift system...
The benefits to high lift system maximum life and, alternatively, to high lift system complexity, of...
This project is a continuation of the NASA AFC-Enabled Simplified High-Lift System Integration Study...
NASA has had a long history in fundamental and applied high lift research. Current programs provide ...
A 10% scale version of the High-Lift Common Research Model (CRM-HL) was tested in the NASA Langley 1...
The viewgraphs and discussion of high lift needs and related aerodynamic goals established in system...
Numerical simulations have been performed for a simplified high-lift configuration that is represent...
The development of an advanced technology high lift system for an energy efficient transport incorpo...
The viewgraphs for a status report of the NASA Langley Reseach Center High Speed Civil Transport (HS...
Solutions were obtained with the Navier-Stokes CFD code TLNS3D to predict the flow about the NASA Tr...
A novel multielement trailing-edge flap system for light general aviation airplanes was conceived fo...
In aerodynamics, the use of new and flexible tools for the design of supercritical wings is discusse...
The FAST-MAC circulation control model was modified to test an array of unsteady sweeping-jet actuat...
This document serves as the final report for the SMAAART AFC-Enabled Vertical Tail System Integratio...