Add to ORKGThis paper presents the results of two direct numerical simulations (DNS) carried out for turbulent pipe flow and heat transfer. The temperature is treated as a passive scalar, subject to isoflux boundary conditions and it turns out that energy conservation has to be enforced by means of a sink term in the energy equation. The finite volume algorithm used in this work guarantees global energy conservation at each time-step. The axis singularity is effectively circumvented by using fluxes instead of primitive variables, where needed. The preliminary results presented, for both the velocity and the temperature fields, are in good agreement with available empirical correlations and past DNS studies, and this demonstrates the accuracy of our nu...
Heat transfer deterioration has been observed by researchers in turbulent upward flows under the eff...
A computational fluid dynamics (CFD) code, based on direct numerical simulation (DNS) and method of ...
We carry out direct numerical simulation (DNS) of flow in a turbulent square duct by focusing on hea...
Turbulent transport computations of a scalar quantity for fully developed turbulent pipe flow with u...
© 2014 Dr. Sumon SahaTurbulent heat transfer (THT) for internal geometry (pipe or channel) has a wid...
Direct numerical simulations of heat transfer in a fully-developed turbulent pipe flow with circumfe...
Fully developed turbulent convective heat transfer in curved pipes was investigated by Direct Numeri...
International audienceDirect numerical simulations of heat transfer in a fully developed turbulent p...
International audienceHeat transfer in fully developed turbulent pipe flow with isoflux condition im...
This work investigates turbulent heat transfer to a pipe flow with a fluid close to its vapour-liqui...
In the present work, the flow pattern in pipe flow has been simulated using a low-Reynolds-number k-...
AbstractDirect numerical simulation (DNS) of turbulent flow and heat transfer involves directly solvi...
Direct numerical simulations - DNS hereafter - of a fully developed, turbulent horizontal pipe flow ...
This study concerns the development of a new numerical technique for the simulation of Conjugate Hea...
Different types of thermal boundary conditions are conceivable in numerical simulations of convectiv...
Heat transfer deterioration has been observed by researchers in turbulent upward flows under the eff...
A computational fluid dynamics (CFD) code, based on direct numerical simulation (DNS) and method of ...
We carry out direct numerical simulation (DNS) of flow in a turbulent square duct by focusing on hea...
Turbulent transport computations of a scalar quantity for fully developed turbulent pipe flow with u...
© 2014 Dr. Sumon SahaTurbulent heat transfer (THT) for internal geometry (pipe or channel) has a wid...
Direct numerical simulations of heat transfer in a fully-developed turbulent pipe flow with circumfe...
Fully developed turbulent convective heat transfer in curved pipes was investigated by Direct Numeri...
International audienceDirect numerical simulations of heat transfer in a fully developed turbulent p...
International audienceHeat transfer in fully developed turbulent pipe flow with isoflux condition im...
This work investigates turbulent heat transfer to a pipe flow with a fluid close to its vapour-liqui...
In the present work, the flow pattern in pipe flow has been simulated using a low-Reynolds-number k-...
AbstractDirect numerical simulation (DNS) of turbulent flow and heat transfer involves directly solvi...
Direct numerical simulations - DNS hereafter - of a fully developed, turbulent horizontal pipe flow ...
This study concerns the development of a new numerical technique for the simulation of Conjugate Hea...
Different types of thermal boundary conditions are conceivable in numerical simulations of convectiv...
Heat transfer deterioration has been observed by researchers in turbulent upward flows under the eff...
A computational fluid dynamics (CFD) code, based on direct numerical simulation (DNS) and method of ...
We carry out direct numerical simulation (DNS) of flow in a turbulent square duct by focusing on hea...