Exergy and entropy generation analysis of TiO_2-water nanofluid flow through the water block as an electronics device

摘要

Thermal performance of electronics can be improved by using new heat transfer fluids, nanofluids. The aim of this research is to experimentally analyze exergy and entropy generation of TiO_2-water nanofluid for cooling of a water block as an electronic device. The prepared TiO_2-water nanofluid was passed through the water block heat sink with the concentrations of 0.10 vol.%. Volume flow rate was changed from 1.0 to 1.5 l/min. From the experimental result, it was found that the base temperature was fallen with the increase of flow rate and rise with the addition of nanoparticle compared to water. The maximum exergy at outlet position was found to be 206 W at 1.5 l/min flow rate. The exergy gain was augmented for the adding of nanoparticle into the water and fallen with the rise of flow rate. The maximum 2nd law efficiency (exergy efficiency) was found to be 39.63% for the nanofluid at 1.5 l/min flow rate. Exergy loss was found to be decreased by the increase of flow rate of the coolant Besides, thermal entropy generation rate was declined, and fluid friction entropy generation rate was augmented by the increase of flow rate.