Three-dimensional fluid flow and heat transfer phenomena inside heated microchannels is investigated. The steady, laminar flow and heat transfer equations are solved using a finite-volume method. The numerical procedure is validated by comparing the predicted local thermal resistances with available experimental data. The friction factor is also predicted in this study. It was found that the heat input lowers the frictional losses, particularly at lower Reynolds numbers. At lower Reynolds numbers the temperature of the water increases, leading to a decrease in the viscosity and hence smaller frictional losses
A parametric investigation is carried out on the effects of temperature-dependent viscosity and visc...
In the present paper we focus our attention on the analysis of surface roughness effects. In the pro...
Study of fluid flow characteristics at microscale level is gaining importance with shrinking device ...
[[abstract]]Heat transfer characteristics for compressible flow in microchannels have been infrequen...
Microchannels are of current interest for use in compact heat exchangers, micro biochips, micro reac...
The analysis of heat transfer and fluid dynamics in a microchannel is currently one of numerous impo...
International audienceThe paper presents both three and two-dimensional numerical analysis of convec...
The effect of geometrical parameters on water flow and heat transfer characteristics in microchannel...
This study investigates the design, construction and instrumentation of an experimental microchannel...
Microchannels are the current interest for use in compact heat exchanger , micro reactors , very lar...
Numerical simulation has been conducted for the investigation of heat transfer in a rectangular, hig...
This paper examines the thermal behaviour of fluid flow through a microchannel that incorporates fou...
AbstractMicrochannel heat sinks are widely used in dissipation of large amounts of heat from a small...
In the present dissertation, fluid flow and heat transfer in microfluidic systems is investigated nu...
In this study an incompressible 2-D Navier Stokes solver is used to study the effects of surface rou...
A parametric investigation is carried out on the effects of temperature-dependent viscosity and visc...
In the present paper we focus our attention on the analysis of surface roughness effects. In the pro...
Study of fluid flow characteristics at microscale level is gaining importance with shrinking device ...
[[abstract]]Heat transfer characteristics for compressible flow in microchannels have been infrequen...
Microchannels are of current interest for use in compact heat exchangers, micro biochips, micro reac...
The analysis of heat transfer and fluid dynamics in a microchannel is currently one of numerous impo...
International audienceThe paper presents both three and two-dimensional numerical analysis of convec...
The effect of geometrical parameters on water flow and heat transfer characteristics in microchannel...
This study investigates the design, construction and instrumentation of an experimental microchannel...
Microchannels are the current interest for use in compact heat exchanger , micro reactors , very lar...
Numerical simulation has been conducted for the investigation of heat transfer in a rectangular, hig...
This paper examines the thermal behaviour of fluid flow through a microchannel that incorporates fou...
AbstractMicrochannel heat sinks are widely used in dissipation of large amounts of heat from a small...
In the present dissertation, fluid flow and heat transfer in microfluidic systems is investigated nu...
In this study an incompressible 2-D Navier Stokes solver is used to study the effects of surface rou...
A parametric investigation is carried out on the effects of temperature-dependent viscosity and visc...
In the present paper we focus our attention on the analysis of surface roughness effects. In the pro...
Study of fluid flow characteristics at microscale level is gaining importance with shrinking device ...