Add to ORKGA method is developed for calculating the growth of a turbulent boundary layer at hypersonic Mach numbers. Excellent agreement with experimental results from axisymmetric nozzles has been obtained by the application of this method. The method utilizes a modification of Stewartson's transformation to simplify the integration of the momentum equation. Heat transfer is taken into account by evaluating the gas properties at Eckert's reference temperature and by using a modification of Crocco's quadratic for the temperature distribution in the boundary layer. A new empirical relation is used for the incompressible friction coefficient which agrees with experimental data over a Reynold's number range from 10(superscript 5) to 10(superscript 9)."R...
Experimental boundary-layer measurements obtained in a Ludwieg tube used to drive a pilot transonic ...
Kevin WanklynHypersonic flow involves an extremely complex flow system. The parameters that affect l...
Kevin WanklynHypersonic flow involves an extremely complex flow system. The parameters that affect l...
In order to provide a relatively simple heat-transfer prediction along a nozzle, a differential (sim...
As an application of the method, the contour correction of supersonic nozzles for the effects of bou...
An analysis of the incompressible turbulent boundary layer, developing under the combined effects of...
A shear-work integral method is developed for calculating compressible turbulent boundary layers on ...
The analysis indicates that recovery factor decreased with increasing Mach number. For Prandtl numbe...
The problem of accurately predicting boundary-layer growth for supersonic nozzle design assumes incr...
An experimental investigation was conducted in Leg 1 of the GALCIT 5 x 5 inch Hypersonic Wind Tunnel...
An integral method for predicting boundary layer development in turbulent flow regions on two-dimens...
Turbulent boundary layer skin friction and heat transfer on hollow cylinder in hypersonic flow at hi...
Abstract: The method presented in NACA TN 2692 for evaluating the skin friction of a turbulent bound...
The problem of determining the growth of a turbulent boundary layer under conditions occurring on ra...
A series of tests has been conducted at free-stream Mach numbers four and eight to determine the eff...
Experimental boundary-layer measurements obtained in a Ludwieg tube used to drive a pilot transonic ...
Kevin WanklynHypersonic flow involves an extremely complex flow system. The parameters that affect l...
Kevin WanklynHypersonic flow involves an extremely complex flow system. The parameters that affect l...
In order to provide a relatively simple heat-transfer prediction along a nozzle, a differential (sim...
As an application of the method, the contour correction of supersonic nozzles for the effects of bou...
An analysis of the incompressible turbulent boundary layer, developing under the combined effects of...
A shear-work integral method is developed for calculating compressible turbulent boundary layers on ...
The analysis indicates that recovery factor decreased with increasing Mach number. For Prandtl numbe...
The problem of accurately predicting boundary-layer growth for supersonic nozzle design assumes incr...
An experimental investigation was conducted in Leg 1 of the GALCIT 5 x 5 inch Hypersonic Wind Tunnel...
An integral method for predicting boundary layer development in turbulent flow regions on two-dimens...
Turbulent boundary layer skin friction and heat transfer on hollow cylinder in hypersonic flow at hi...
Abstract: The method presented in NACA TN 2692 for evaluating the skin friction of a turbulent bound...
The problem of determining the growth of a turbulent boundary layer under conditions occurring on ra...
A series of tests has been conducted at free-stream Mach numbers four and eight to determine the eff...
Experimental boundary-layer measurements obtained in a Ludwieg tube used to drive a pilot transonic ...
Kevin WanklynHypersonic flow involves an extremely complex flow system. The parameters that affect l...
Kevin WanklynHypersonic flow involves an extremely complex flow system. The parameters that affect l...