A modern three element airfoil model with a remotely activated flap was used to investigate optimum flap testing position using an automated optimization algorithm in wind tunnel tests. Detailed results for lift coefficient versus flap vertical and horizontal position are presented for two angles of attack: 8 and 14 degrees. An on-line first order optimizer is demonstrated which automatically seeks the optimum lift as a function of flap position. Future work with off-line optimization techniques is introduced and aerodynamic hysteresis effects due to flap movement with flow on are discussed
A high-lift workshop was held in May of 1993 at NASA Langley Research Center. A major part of the wo...
Tests were made on a model wing with three different sized split trailing-edged flaps, in the NACA 7...
Lift, drag, and moment measurements were taken at low Reynolds numbers for four airfoils with traili...
A study is reported on geometry optimization techniques for high-lift airfoils. A modern three-eleme...
New high-lift components have been designed for a three-element advanced high-lift research airfoil ...
The flow over multi-element airfoils with flat-plate lift-enhancing tabs was numerically investigate...
The results of a wind-tunnel test are presented for a two-dimensional NASA 63(sub 2)-215 Mod B airfo...
The results of a wind tunnel experiment are reported, which investigated two different flow control ...
A test installation was used in which an airfoil of 7-foot span was mounted vertically between the u...
The main objective is to develop effective control strategies for separation control of an airfoil w...
A numerical procedure for determining the position (horizontal location, vertical location, and defl...
This report deals with pressure distribution tests on an airfoil with a conventional trailing edge f...
Experimental studies were conducted to assess Reynolds and Mach number effects on a supercritical mu...
A practical procedure for optimum design of aerodynamic shapes is demonstrated. The proposed procedu...
Wind tunnel tests were conducted to evaluate a natural laminar flow airfoil designed for the high sp...
A high-lift workshop was held in May of 1993 at NASA Langley Research Center. A major part of the wo...
Tests were made on a model wing with three different sized split trailing-edged flaps, in the NACA 7...
Lift, drag, and moment measurements were taken at low Reynolds numbers for four airfoils with traili...
A study is reported on geometry optimization techniques for high-lift airfoils. A modern three-eleme...
New high-lift components have been designed for a three-element advanced high-lift research airfoil ...
The flow over multi-element airfoils with flat-plate lift-enhancing tabs was numerically investigate...
The results of a wind-tunnel test are presented for a two-dimensional NASA 63(sub 2)-215 Mod B airfo...
The results of a wind tunnel experiment are reported, which investigated two different flow control ...
A test installation was used in which an airfoil of 7-foot span was mounted vertically between the u...
The main objective is to develop effective control strategies for separation control of an airfoil w...
A numerical procedure for determining the position (horizontal location, vertical location, and defl...
This report deals with pressure distribution tests on an airfoil with a conventional trailing edge f...
Experimental studies were conducted to assess Reynolds and Mach number effects on a supercritical mu...
A practical procedure for optimum design of aerodynamic shapes is demonstrated. The proposed procedu...
Wind tunnel tests were conducted to evaluate a natural laminar flow airfoil designed for the high sp...
A high-lift workshop was held in May of 1993 at NASA Langley Research Center. A major part of the wo...
Tests were made on a model wing with three different sized split trailing-edged flaps, in the NACA 7...
Lift, drag, and moment measurements were taken at low Reynolds numbers for four airfoils with traili...