Experimental  investigation was carried out to study  the impact of   absorber device with  nail twisted tape of two different   twist ratios of y = 2.0,  and 3.0 and using Al₂O₃ / water nanofluid  as the working fluid at 0.1%, and 0.3% particle volume concentration  on the heat Transfer and friction factor  characteristics  of a solar parabolic trough collector. The tests are performed in the laminar range 710-2130 using indoor simulation under constant heat flux conditions. It is observed that the nail twisted tape absorber with nanofluids can significantly improve the heat transfer performance of the solar trough collector. The friction factor increases with twisted tape absorber due to swirl flow and over particle volume concentration and this is due to the increased nanofluid viscosity while increasing particle volume concentration. This result is useful for the design of absorber for solar parabolic trough collector.

Friction factor, heat transfer, nanofluids, parabolic trough collector, twisted tape