ABSTRACT In this present work a three-dimensional fluid flow and heat transfer in a rectangular microchannel heat sink are analyzed numerically with the help of commercial CFD -ANSYS-FLUENT 14.0. The micro-heat sink model consists of a 10 mm long substrate material with rectangular micro channels, 57µm wide and 180µm height, fabricated along the entire length. Two different materials (silicon, copper) for rectangular micro channels are taken for our study. Water at 293K is taken as working fluid. A comparison of heat transfer characteristics of liquid coolant is made in forced convection cooling at a heat flux of 90W/cm 2 in micro-heat sink with different pressure drops (30kpa, 50kpa)
A theoretical study of single phase microchannel heat exchanger has been carried out. The computatio...
Effective thermal management is a key for the continuous development of electronics, which are chara...
The hydraulic and thermal performance of microchannel heat sink configurations for high performance ...
The paper discusses the numerical simulation of a micro-channel heat sink in microelectronics coolin...
In this research work, silicon microchannels are studied for computational analysis of heat transfer...
Microchannels are of current interest for use in compact heat exchangers, micro biochips, micro reac...
AbstractA numerical study has been carried out to investigate the heat transfer enhancement and flui...
For more than a decade, investigations have been conducted to better understand the fluid flow and h...
Abstract: Microchannel heat sink is fabricated on silicon wafer by anisotropic etching, and used Pyr...
ABSTRACT A computational model was developed to analyze and optimize the convective heat transfer fo...
AbstractMicrochannel heat sinks are widely used in dissipation of large amounts of heat from a small...
Microchannels are the current interest for use in compact heat exchanger , micro reactors , very lar...
A rectangular micro channels having 500 microns width & 1500 microns depth have been machi...
Investigations are conducted to understand the heat transport and fluid flow mechanisms in microchan...
A 3D-conjugate numerical investigation was conducted to predict heat transfer characteristics in a r...
A theoretical study of single phase microchannel heat exchanger has been carried out. The computatio...
Effective thermal management is a key for the continuous development of electronics, which are chara...
The hydraulic and thermal performance of microchannel heat sink configurations for high performance ...
The paper discusses the numerical simulation of a micro-channel heat sink in microelectronics coolin...
In this research work, silicon microchannels are studied for computational analysis of heat transfer...
Microchannels are of current interest for use in compact heat exchangers, micro biochips, micro reac...
AbstractA numerical study has been carried out to investigate the heat transfer enhancement and flui...
For more than a decade, investigations have been conducted to better understand the fluid flow and h...
Abstract: Microchannel heat sink is fabricated on silicon wafer by anisotropic etching, and used Pyr...
ABSTRACT A computational model was developed to analyze and optimize the convective heat transfer fo...
AbstractMicrochannel heat sinks are widely used in dissipation of large amounts of heat from a small...
Microchannels are the current interest for use in compact heat exchanger , micro reactors , very lar...
A rectangular micro channels having 500 microns width & 1500 microns depth have been machi...
Investigations are conducted to understand the heat transport and fluid flow mechanisms in microchan...
A 3D-conjugate numerical investigation was conducted to predict heat transfer characteristics in a r...
A theoretical study of single phase microchannel heat exchanger has been carried out. The computatio...
Effective thermal management is a key for the continuous development of electronics, which are chara...
The hydraulic and thermal performance of microchannel heat sink configurations for high performance ...