HVAC-solar energy performance exploiting Sutterby (AA7075–Ag–Cu/C6H9NaO7) ternary magnetic nanofluid through spinning flow with joule heating

Abstract

Technologies regarding solar heating, ventilation and air-conditioning (S-HVAC) are aimed at making modern 3D numerical forms that address the Sutterby flow ternary nanofluids circulating onward the convective heating and extendable seats. Heat transport includes joule heating, heat source or sink along with thermal radiation. Using fitting modifications, mathematically conveyed partial differential equations of energy, fixation and strength may decrease into ordinary differential equations (ODEs). They determine ODEs beyond dimension, and for this, the mathematical process is utilized. Copper–silver–aluminum alloys/sodium alginate (Cu–Ag–AA7075/C6H9NaO7) was used to address the behavior of this research work. The natural attributes, for example, heat movement and surface drag coefficients, are numerically prepared and shown in figures and tables when there is an alteration in distant factors. The field of temperature was raised to develop the Biot number. This heat transport rate was hiked to 34.0839% although the shear stress rate was hiked to 32.8043% in the single nanoparticle case compared to the triple nanoparticle case. To validate the analysis, a comparison between the presented and existing is reported under certain assumptions on the flow parameters. It is found that the results are reliable and in line with the existing ones.