Improve the performance of solar thermal collectors by varying the concentration and nanoparticles diameter of silicon dioxide

Abstract: The influence of different concentrations and nanoparticles’ diameter of silicon dioxide nanoparticles on the Nusselt number enhancement ratio and friction factor for solar thermal collector (STC) was examined numerically. The CFD model was designed to show the influence of the flow of water/SiO2 and pure water inside the pipe on the enhancement of the performance of the STC. Different concentrations of SiO2 nanoparticles are used (ϕ = 1–4%) with several nanoparticle diameters (dp = 20–50 nm). The water/SiO2 a… Show more

“…The results showed that the outlet temperature improved by 3.25 %, 6.24 % and 14.09 % using SiO 2 , TiO 2 , and Cu water-based nanofluids respectively. Hasan et al [ 17 ] conducted a numerical investigation on a solar thermal collector using SiO 2 water-based nanofluid at different nanoparticle concentrations. The CFD model showed that a 5 % concentration of the nanofluid resulted in the highest Nusselt number.…”

Assessment of thermohydraulic performance and entropy generation in an evacuated tube solar collector employing pure water and nanofluids as working fluids

“…The results showed that the outlet temperature improved by 3.25 %, 6.24 % and 14.09 % using SiO 2 , TiO 2 , and Cu water-based nanofluids respectively. Hasan et al [ 17 ] conducted a numerical investigation on a solar thermal collector using SiO 2 water-based nanofluid at different nanoparticle concentrations. The CFD model showed that a 5 % concentration of the nanofluid resulted in the highest Nusselt number.…”

Assessment of thermohydraulic performance and entropy generation in an evacuated tube solar collector employing pure water and nanofluids as working fluids

Nanofluids guided energy-efficient solar water heaters: Recent advancements and challenges ahead

Assessment of Thermohydraulic Performance and Entropy Generation in an Evacuated Tube Solar Collector Employing Pure Water and Nanofluids as Working Fluids