Ionanofluid flow through a triangular grooved microchannel heat sink: Thermal heightening

With the recent advance in technologies, thermal transport from different electronic and electrical devices is most vital concern. The microchannel heat sink (MCHS) of liquid cooling a useful device to remove over load. Ionanofluid brand new super potential fluid for its ionic conductivity, non-flammability, negligible volatility, high-level stability. In this research, ionanofluid's velocity field characteristics through triangular grooved MCHS are investigated using numerical tools. combination (IL) 1-Butyl-3-methylimidazolium Bis(trifluoromethanesulfonyl)imide [C4mim]NTf2 propylene glycol (PG) used as base whereas graphene (G) single-walled carbon nanotube (SWCNT) chosen hybrid nanoparticles make working ionanofluid. governing equations nonlinear partial differential describing physical phenomena along with proper border settings resolved by applying finite element method (FEM). Different ratios (G: SWCNT) like (1: 0, 1/3: 2/3, 1/2: 1/2, 2/3: 1/3, 0: 1) suspended mixture. addition, mixture assumed combinations (IL: PG) (100: 50: 50, 100). results displayed forms streamlines, isothermal lines, rate transfer pertinent parameters namely forced convection (Re = 100–900) solid concentration (ϕ 0.001–0.05). Also, pressure drop, synergy number, relative fanning friction feature, Nusselt temperature enhancement efficiency calculated. indicate that higher found IL-based ionanofluid highest concentration. Moreover, enhances MCHS. Two linear regression very good correlation coefficients have been derived results.