Test data are presented for a 38-cm (15-in.) diameter, 1.28 pressure ratio model VTOL lift fan installed in a two-dimensional wing and tested in a 2.74-by 4.58-meter (9-by 15-ft)V/STOL wind tunnel. Tests were run with and without exit louvers over a wide range of crossflow velocities and wing angle of attack. Tests were also performed with annular-inlet vanes, inlet bell-mouth surface disconuities, and fences to induce fan windmilling. Data are presented on the axial force of the fan assembly and overall wing forces and moments as measured on force balances for various static and crossflow test conditions. Midspan wing surface pressure coefficient data are also given
An experimental, aerodynamic investigation was made of two 1.83 m diameter fan systems which are bei...
An aerodynamic study on efficiency improvement of a wing embedded lifting fan with a diameter of 0.3...
Aerodynamic characteristics of V/STOL transport model with wing-mounted lift fans - large-scale wind...
Cross flow wind tunnel performance tests of 15 in. wing installed lift fan with coaxial drive turbin...
The purpose of the tests was to obtain overall performance and influencing factors as well as detail...
Aerodynamic characteristics of lift fan installation for direct lift V/STOL aircraf
Lift, drag, and pitching moments of large V/STOL aircraft models powered by lift fans determined in ...
A tip-turbine-driven fan of the type currently being used in wind tunnel tests of VTOL lift fan mode...
An investigation was conducted in the NASA-Ames 40 by 80 Foot Wind Tunnel to determine the aerodynam...
The low-speed aerodynamic characteristics of large scale V/STOL transport models with lift fan and l...
Thermodynamic, aerodynamic, mechanical, and systems studies of lift fan concepts for V/STOL TRANSPOR...
A configuration with outboard pod mounted front fans and rear fans located in the wing trailing-edge...
The incompressible-flow momentum theory is extended to the case of lifting fans. The resulting theor...
An experimental program was performed in which the individual performance of multiple VTOL model lif...
A 1/8-scale model of a fan-in-wing concept considered for development by Grumman Aerospace Corporati...
An experimental, aerodynamic investigation was made of two 1.83 m diameter fan systems which are bei...
An aerodynamic study on efficiency improvement of a wing embedded lifting fan with a diameter of 0.3...
Aerodynamic characteristics of V/STOL transport model with wing-mounted lift fans - large-scale wind...
Cross flow wind tunnel performance tests of 15 in. wing installed lift fan with coaxial drive turbin...
The purpose of the tests was to obtain overall performance and influencing factors as well as detail...
Aerodynamic characteristics of lift fan installation for direct lift V/STOL aircraf
Lift, drag, and pitching moments of large V/STOL aircraft models powered by lift fans determined in ...
A tip-turbine-driven fan of the type currently being used in wind tunnel tests of VTOL lift fan mode...
An investigation was conducted in the NASA-Ames 40 by 80 Foot Wind Tunnel to determine the aerodynam...
The low-speed aerodynamic characteristics of large scale V/STOL transport models with lift fan and l...
Thermodynamic, aerodynamic, mechanical, and systems studies of lift fan concepts for V/STOL TRANSPOR...
A configuration with outboard pod mounted front fans and rear fans located in the wing trailing-edge...
The incompressible-flow momentum theory is extended to the case of lifting fans. The resulting theor...
An experimental program was performed in which the individual performance of multiple VTOL model lif...
A 1/8-scale model of a fan-in-wing concept considered for development by Grumman Aerospace Corporati...
An experimental, aerodynamic investigation was made of two 1.83 m diameter fan systems which are bei...
An aerodynamic study on efficiency improvement of a wing embedded lifting fan with a diameter of 0.3...
Aerodynamic characteristics of V/STOL transport model with wing-mounted lift fans - large-scale wind...