Galerkin finite element inspection of thermal distribution of renewable solar energy in presence of binary nanofluid in parabolic trough solar collector

“…The study revealed that the silver ethylene glycol has shown maximum efficiency of 26.3% which is higher than that of the silver‐magnetite‐ethylene glycol. Alkathiri et al 25 have used Cu‐EO and Fe 3 O 4 ‐EO as the binary fluid in parabolic trough system and studied the thermal behavior via the entropy change. From the study, it is found that the Cu‐EO and Fe 3 O 4 ‐EO have obtained the maximum and minimum peak efficiency of 14.9% and 1.6%, respectively.…”

Regenerative effect of pyramid solar still with incorporation of nickel oxide particles in the basin

“…The study revealed that the silver ethylene glycol has shown maximum efficiency of 26.3% which is higher than that of the silver‐magnetite‐ethylene glycol. Alkathiri et al 25 have used Cu‐EO and Fe 3 O 4 ‐EO as the binary fluid in parabolic trough system and studied the thermal behavior via the entropy change. From the study, it is found that the Cu‐EO and Fe 3 O 4 ‐EO have obtained the maximum and minimum peak efficiency of 14.9% and 1.6%, respectively.…”

Regenerative effect of pyramid solar still with incorporation of nickel oxide particles in the basin

“…Moreover, there are hot spots on the chip, and solving such hot spots 36 , 37 requires targeted heat conduction. In the 3D integrated circuit, 38 where the hot spot effect is particularly serious, technologies such as eddy current, 39 loop, 40 thermal-sensing valve, 41 and nanofluid 42 have certain effects on enhancing heat transfer efficiency and other technologies, for example, the application of nanofluids in solar collector equipment 43 , 44 and related solar aircraft. 45 However, in the most critical active directional heat conduction method for flow, the technical difficulty lies in how to build a closed circulation fluid channel on a hard silicon wafer (or in glass) and drive the fluid in it to perform microcirculation flow.…”

Manipulating nanoliter fluid circuits on an all-glass chip by the magnetic field

“…Finally, this system is solved to obtain the final solution. The hybrid nanofluid contains nanoparticles of copper and magnetite (Fe 3 O 4 ), which flow over an infinite porous surface and is studied by Alkathiri et al 28 for thermal properties with the presence of entropy generation. The thermal performance of MHD radiating Williamson nanofluid flow bounded by infinite convective surface, with aluminum alloys (AA7072) and titanium alloy (Ti6Al4V) are studied by Hussain et al 29 .…”

Comprehensive examination of radiative electromagnetic flowing of nanofluids with viscous dissipation effect over a vertical accelerated plate