Heat transfer and pressure drop performance of alumina–water nanofluid in a flat vertical tube of a radiator |
| |
Authors: | Gurpreet Singh Sokhal Dasaroju Gangacharyulu |
| |
Affiliation: | Department of Chemical Engineering, Thapar University, Patiala, Punjab, India |
| |
Abstract: | This work presents experimental investigation on the effects of nanofluid inlet temperature (40–90°C), Reynolds number (12,000–30,000), particle concentration (0–1 vol.%), and air velocity (0.25–0.55?m/s) on thermal and flow characteristics of water-based alumina nanofluids in a flat vertical tube of a radiator. The specific heat capacity, viscosity, density, and thermal conductivity were measured experimentally. The heat transfer coefficient enhanced (up to 31%) with an increase in fluid inlet temperature, particle volume concentration, Reynolds number as well as air inlet velocity. The pressure drop increased with an increase in the particle volume concentration and Reynolds number, while it decreased slightly with an increase in the fluid inlet temperature. The friction factor and pumping power increased with particle concentration. The friction factor decreased, while the pumping power increased with sn increase in fluid flow rate. |
| |
Keywords: | Alumina flat tube heat transfer coefficient nanofluid pressure drop radiator |
|
|