Surface Mach number distributions, total pressure loss coefficients, and schlieren images of the flow are presented over a range of inlet Mach numbers and air angles. Several different trailing edge geometries were tested. At design conditions a leading edge separation bubble was observed resulting in higher losses than anticipated. The minimum losses were obtained at a negative incidence condition in which the flow was accelerating over most of the supercritical region. Relatively minor differences in losses were measured with the different trailing edge geometries studied
Steady and unsteady experimental data are presented for several fixed geometry conditions from a tes...
A wind tunnel investigation was conducted to study the application of supercritical technology to hi...
A computational investigation was performed to study the flow over a supercritical airfoil model. So...
The supercritical flow about a biconvex circular-arc airfoil is being thoroughly documented at Ames ...
The aerodynamic characteristics of an 11 percent thick symmetrical supercritical airfoil were determ...
A lifting airfoil theoretically designed for shockless supercritical flow utilizing a complex hodogr...
A computational investigation was performed to study the flow over a supercritical airfoil model. So...
A series of experiments was conducted on flow fields about two airfoil models whose sections are sli...
A combined experimental and computational research program is described for testing and guiding turb...
A supercritical stator blade section, previously tested in cascade, and characterized by a flat-roof...
Inviscid transonic flow results are provided at design and off design conditions for two supercritic...
Turbomachinery blade designs are becoming more aggressive in order to achieve higher loading and gre...
Surface static-pressure and drag data obtained from tests of two slightly modified versions of the o...
Transonic pressure tunnel and transonic tunnel tests were performed to determine the aerodynamic cha...
The transonic flow field about a Whitcomb-type supercritical airfoil profile was measured in detail....
Steady and unsteady experimental data are presented for several fixed geometry conditions from a tes...
A wind tunnel investigation was conducted to study the application of supercritical technology to hi...
A computational investigation was performed to study the flow over a supercritical airfoil model. So...
The supercritical flow about a biconvex circular-arc airfoil is being thoroughly documented at Ames ...
The aerodynamic characteristics of an 11 percent thick symmetrical supercritical airfoil were determ...
A lifting airfoil theoretically designed for shockless supercritical flow utilizing a complex hodogr...
A computational investigation was performed to study the flow over a supercritical airfoil model. So...
A series of experiments was conducted on flow fields about two airfoil models whose sections are sli...
A combined experimental and computational research program is described for testing and guiding turb...
A supercritical stator blade section, previously tested in cascade, and characterized by a flat-roof...
Inviscid transonic flow results are provided at design and off design conditions for two supercritic...
Turbomachinery blade designs are becoming more aggressive in order to achieve higher loading and gre...
Surface static-pressure and drag data obtained from tests of two slightly modified versions of the o...
Transonic pressure tunnel and transonic tunnel tests were performed to determine the aerodynamic cha...
The transonic flow field about a Whitcomb-type supercritical airfoil profile was measured in detail....
Steady and unsteady experimental data are presented for several fixed geometry conditions from a tes...
A wind tunnel investigation was conducted to study the application of supercritical technology to hi...
A computational investigation was performed to study the flow over a supercritical airfoil model. So...