Nanoscale heat and mass transport of magnetized 3-D chemically radiative hybrid nanofluid with orthogonal/inclined magnetic field along rotating sheet

• Published in: Case studies in thermal engineering Vol. 26; p. 101193
• Main Authors: Ayub, Assad, Sabir, Zulqurnain, Le, Dac-Nhuong, Aly, Ayman A.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.08.2021; Elsevier
• Subjects: 3-D chemical reactive hybrid nanofluid; Bar graphs; Nanoscale heat transport; Numerical performances; Rotating sheet; Bar graphs; Nanoscale heat transport; 3-D chemical reactive hybrid nanofluid; Rotating sheet; Numerical performances
• ISSN: 2214-157X; 2214-157X
• DOI: 10.1016/j.csite.2021.101193

This work is related to the chemical process in nanomaterial that has prominent applications in water-solubility, octanol-water partition coefficient, melting points, vapor pressure and various astonishing features. Nanoparticles have unique chemical effects in the field of nanoscience and nanotechnology. This study determines the impacts of homogeneous heterogeneous reactions along with nanoscale heat transport of inclined magnetized three-dimensional (3-D) water-based Hybrid nanofluid. The geometry of rotating and shrinking/stretching sheet with the effects of thermal radiation is also presented. Nanoparticles of aluminum oxide and silver are being used with water as base fluid. Mathematical model of Hybrid nanofluid generates the set of partial differential equation (PDEs) and these are transmuted into ordinary differential equations (ODEs) by using the similarity of variables. MATLAB built-in bvp4c procedures are implemented to find the numerical solutions. Moreover, physical descriptions of current study are revealed out through graphs and tables. Statistical analysis of physical quantities is presented in the form of bar graphs to show the regulating parameter effects.