A simulation of the cooling of electronic devices was carried out by means of microchannels, using water as a coolant to dissipate the heat generated from a computer processor, and thus stabilize its optimum operating temperature. For the development of this study, computational fluid mechanics modeling was established in order to determine the temperature profiles, pressure profiles, and velocity behavior of the working fluid in the microchannel. In the results of the study, the operating temperatures of the computer processor were obtained, in the ranges of 303 K to 307 K, with fluid velocities in the microchannels of 5 m/s, apressure drop of 633.7 kPa, and a factor of safety of the design of the microchannel of 15. F...
Microchannel technology rapidly established itself as a practicable solution to the problem of the r...
Considering microfluidic technology, this work has been innovated to consist of monitoring, temperat...
This paper demonstrates the effect of microfluidic system design on temperature profiles of the whol...
The performance of computers is driven by the consumer demand, resulting inthe tremendous increase i...
The paper discusses the numerical simulation of a micro-channel heat sink in microelectronics coolin...
For more than a decade, investigations have been conducted to better understand the fluid flow and h...
The temperature has significant impact on the electronic performances. Therefore, the effective cooi...
In this research work, silicon microchannels are studied for computational analysis of heat transfer...
International audienceA heat exchanger dedicated to the cooling of a microprocessor has been designe...
Microchannels are of current interest for use in compact heat exchangers, micro biochips, micro reac...
Purpose - With the development of electronic devices, including the desires of integration, miniatur...
Cooling of electronic components continues to attract many research and development activities towar...
The ongoing evolution of electronic systems that operate under extreme conditions has led to persist...
With the development of miniaturized and enormous heat density generating novel technologies, the mi...
In this paper, a common and widely used micro-heat sink (H/S) was redesigned and simulated using co...
Microchannel technology rapidly established itself as a practicable solution to the problem of the r...
Considering microfluidic technology, this work has been innovated to consist of monitoring, temperat...
This paper demonstrates the effect of microfluidic system design on temperature profiles of the whol...
The performance of computers is driven by the consumer demand, resulting inthe tremendous increase i...
The paper discusses the numerical simulation of a micro-channel heat sink in microelectronics coolin...
For more than a decade, investigations have been conducted to better understand the fluid flow and h...
The temperature has significant impact on the electronic performances. Therefore, the effective cooi...
In this research work, silicon microchannels are studied for computational analysis of heat transfer...
International audienceA heat exchanger dedicated to the cooling of a microprocessor has been designe...
Microchannels are of current interest for use in compact heat exchangers, micro biochips, micro reac...
Purpose - With the development of electronic devices, including the desires of integration, miniatur...
Cooling of electronic components continues to attract many research and development activities towar...
The ongoing evolution of electronic systems that operate under extreme conditions has led to persist...
With the development of miniaturized and enormous heat density generating novel technologies, the mi...
In this paper, a common and widely used micro-heat sink (H/S) was redesigned and simulated using co...
Microchannel technology rapidly established itself as a practicable solution to the problem of the r...
Considering microfluidic technology, this work has been innovated to consist of monitoring, temperat...
This paper demonstrates the effect of microfluidic system design on temperature profiles of the whol...