Topics
buoyancyMilitary unit
Plumes generated by vertically distributed sources of buoyancy have been observed to have substantially lower entrainment coefficients than their equivalent-geometry constant buoyancy flux plumes. Two differences between distributed and localized sources of buoyancy are the presence of a wall shear stress at the source and that non-ideal source conditions are distributed over the whole height of the enclosure for a vertically distributed source. Herein the impact of non-ideal source and boundary conditions on vertically distributed plumes is analysed. It is shown that, at small heights, the plume volume flow rate is significantly influenced by the wall-source volume flux. At larger heights the wall-source buoyancy is greater than the mean p...
International audienceThis paper investigates theoretically the vertical evolution of a turbulent pl...
The influence of boundaries on the dynamics of a compositional plume is studied using a simple model...
Flows driven by density differences, whether natural or induced by man, surround us on a wide range ...
Free shear and wall-bounded buoyancy-driven turbulent flows occur in both natural environments and i...
We examine a turbulent distributed wall-source plume: the flow resulting from a uniform vertical wal...
Analytical solutions are developed for the flow induced by a vertically distributed turbulent plume ...
This article presents a theoretical modelling framework for the previously unconsidered case of turb...
We analyse the entrainment and energetics of equal and opposite axisymmetric tur-bulent air plumes i...
The behavior of a forced plume is mainly controlled by the source buoyancy and momentum fluxes and t...
The flows that may result from the release of a buoyant fluid from a small source in a confined spac...
© 2019 Nitheesh GeorgeStudies pertaining to turbulent plumes in confined spaces are of utmost intere...
The structure of a buoyant plume above a point heat source in a ventilated enclosure has been invest...
We examine the flow resulting from a vertically distributed wall-source plume in both an unventilate...
The study of turbulent convection is fundamental to our understanding of many flows that occur in th...
Experiments are presented on turbulent buoyant free - line and wall plumes, whereby the buoyancy sou...
International audienceThis paper investigates theoretically the vertical evolution of a turbulent pl...
The influence of boundaries on the dynamics of a compositional plume is studied using a simple model...
Flows driven by density differences, whether natural or induced by man, surround us on a wide range ...
Free shear and wall-bounded buoyancy-driven turbulent flows occur in both natural environments and i...
We examine a turbulent distributed wall-source plume: the flow resulting from a uniform vertical wal...
Analytical solutions are developed for the flow induced by a vertically distributed turbulent plume ...
This article presents a theoretical modelling framework for the previously unconsidered case of turb...
We analyse the entrainment and energetics of equal and opposite axisymmetric tur-bulent air plumes i...
The behavior of a forced plume is mainly controlled by the source buoyancy and momentum fluxes and t...
The flows that may result from the release of a buoyant fluid from a small source in a confined spac...
© 2019 Nitheesh GeorgeStudies pertaining to turbulent plumes in confined spaces are of utmost intere...
The structure of a buoyant plume above a point heat source in a ventilated enclosure has been invest...
We examine the flow resulting from a vertically distributed wall-source plume in both an unventilate...
The study of turbulent convection is fundamental to our understanding of many flows that occur in th...
Experiments are presented on turbulent buoyant free - line and wall plumes, whereby the buoyancy sou...
International audienceThis paper investigates theoretically the vertical evolution of a turbulent pl...
The influence of boundaries on the dynamics of a compositional plume is studied using a simple model...
Flows driven by density differences, whether natural or induced by man, surround us on a wide range ...
Add to ORKG