Add to ORKGConditionally-sampled boundary layer data for an accelerating transitional boundary layer have been analyzed to calculate the entropy generation rate in the transition region. By weighing the nondimensional dissipation coefficient for the laminar-conditioned-data and turbulent-conditioned-data with the intermittency factor the average entropy generation rate in the transition region can be determined and hence be compared to the time averaged data and correlations for steady laminar and turbulent flows. It is demonstrated that this method provides, for the first time, an accurate and detailed picture of the entropy generation rate during transition. The data used in this paper have been taken from detailed boundary layer measurements availa...
A study of emerging turbulent scales entropy production is conducted for a supercritical shear layer...
A study of emerging turbulent scales entropy production was conducted for a supercritical shear laye...
The need to quantify entropy generation rates is critical to optimizing the performance of many engi...
Conditionally-sampled boundary layer data for an accelerating transitional boundary layer have been ...
Prediction of thermodynamic loss in transitional boundary layers is typically based on time averaged...
The results of the computation of entropy generation rates through the dissipation of ordered region...
In an earlier paper in Entropy [1] we hypothesized that the entropy generation rate is the driving f...
The principal purpose of this study is to better understand the pointwise entropy generation rate in...
The primary objective of this study is to evaluate the accuracy of using turbulence models to predic...
peer-reviewedBoundary layer transition is a critical parameter in the design of fluid flow systems. ...
The prediction of the entropy generation rate in laminar shear layers is treated as steady, even in ...
The prediction of the entropy generation rate in laminar shear layers is treated as steady, even in ...
The relationship between the entropy increment and the viscosity dissipation in turbulent boundary-l...
Additional entropy generation rates through non-equilibrium ordered structures are predicted for cor...
The entropy concept was introduced into the turbulence modeling strategy in the present work. First,...
A study of emerging turbulent scales entropy production is conducted for a supercritical shear layer...
A study of emerging turbulent scales entropy production was conducted for a supercritical shear laye...
The need to quantify entropy generation rates is critical to optimizing the performance of many engi...
Conditionally-sampled boundary layer data for an accelerating transitional boundary layer have been ...
Prediction of thermodynamic loss in transitional boundary layers is typically based on time averaged...
The results of the computation of entropy generation rates through the dissipation of ordered region...
In an earlier paper in Entropy [1] we hypothesized that the entropy generation rate is the driving f...
The principal purpose of this study is to better understand the pointwise entropy generation rate in...
The primary objective of this study is to evaluate the accuracy of using turbulence models to predic...
peer-reviewedBoundary layer transition is a critical parameter in the design of fluid flow systems. ...
The prediction of the entropy generation rate in laminar shear layers is treated as steady, even in ...
The prediction of the entropy generation rate in laminar shear layers is treated as steady, even in ...
The relationship between the entropy increment and the viscosity dissipation in turbulent boundary-l...
Additional entropy generation rates through non-equilibrium ordered structures are predicted for cor...
The entropy concept was introduced into the turbulence modeling strategy in the present work. First,...
A study of emerging turbulent scales entropy production is conducted for a supercritical shear layer...
A study of emerging turbulent scales entropy production was conducted for a supercritical shear laye...
The need to quantify entropy generation rates is critical to optimizing the performance of many engi...