Heat transfer performance of a radiator with and without louvered strip by using Graphene-based nanofluids

The present work is focused on the Graphene-based nanofluids with high thermal conductivity which helps to improve performance and enhance heat transfer. systems emphasis fluid coolant selection statistical model. Graphene a super-material, lighter than air, conductivity, chemical stability. purpose of research up Nanofluids i.e., (G) oxide (GO). Nanoparticles are dispersed in base 60:40 ratio Water & Ethylene Glycol at different volume concentrations ranging from 0.01%-0.09%. Radiator model designed modelling software louvered strip inserted. simulation (Finite Element Analysis) performed evaluate variation temperature drop, enthalpy, entropy, transfer coefficient total rate considered nanofluids, results were compared by without radiator for absorption. 58-60% enhancement enthalpy observed when nanofluid was utilized. 1.8% entropy 0.09% concentration strips inserted tube flow 3 LPM. With radiator, enhanced 236% 320% identified insert. stated that utilization tube.