Thermal performance analysis of Sutterby nanoliquid subject to melting heat transportation

Abstract: In the recent years, nanotechnology has been widely used in several fields regarding its rapid developments which create a lot of prospects for researchers and engineers. More specifically, replacement of conventional liquid with nanofluid is considered as an innovative solution to heat transfer problems. Keeping aforesaid pragmatism of nanofluid in view, we considered a time-dependent mathematical model to formulate the heat sink-source based Sutterby nanofluid model under thermophoretic and Brownian movement… Show more

“…Abu-Nada, and Oztop studied the properties of Cu-water nanofluid, 3 while Shahzad et al 4 considered the entropy concept for the cross nanofluid with radiation. The entropy optimization in the hybrid nanofluid was presented by Khan et al 5 Furthermore, Khan et al , 6 Ali et al , 7 Khan et al , 8,9 and Anjum et al 10 reported the nanofluid behavior in different fluid models.…”

Interaction of gyrotactic moment of microorganisms and nanoparticles for magnetized and chemically reactive shear-thinning fluid with stratification phenomenon

“…Abu-Nada, and Oztop studied the properties of Cu-water nanofluid, 3 while Shahzad et al 4 considered the entropy concept for the cross nanofluid with radiation. The entropy optimization in the hybrid nanofluid was presented by Khan et al 5 Furthermore, Khan et al , 6 Ali et al , 7 Khan et al , 8,9 and Anjum et al 10 reported the nanofluid behavior in different fluid models.…”

Interaction of gyrotactic moment of microorganisms and nanoparticles for magnetized and chemically reactive shear-thinning fluid with stratification phenomenon

“…We have employed a time-dependent mathematical model to establish the heat sink-source behavior in the Sutterby nanofluid model, incorporating the influences of thermophoretic and Brownian movements. In this study, novel mass flux and melting boundary conditions have been introduced to facilitate the analysis of heat and mass transfer processes [2,8].…”

Neural network design for cubic autocatalysis chemical processes, the flow of a Darcy‐Forchheimer viscous fluid is optimized for entropy

“…The energy crisis resources noticeable as such occurrence includes the base fluid by means of an energy source. This Significant issue is resolved through the nanoparticle utilize for the occurrences of thermal energy by involvement of base fluid [ [2] , [3] , [4] , [5] , [6] , [7] , [8] , [9] , [10] , [11] , [12] , [13] , [14] , [15] , [16] , [17] , [18] , [19] ].…”

Innovation modeling and simulation of thermal convective on cross nanofluid flow over exponentially stretchable surface