Elastic deformation of thermal radiative and convective hybrid SWCNT-Ag and MWCNT-MoS4 magneto-nanofluids flow in a cylinder

Abstract

An increasing interest in heat transfer of industrial working fluids and thermal applications of nanofluids propels the advancement of nanotechnology. Recently, focuses have been shifted to hybridization of nanofluids with the aim of enhancing heat propagation rate of conventional fluids. Hence, in this study, the elastic deformation of thermal radiation and convection for hybridized SWCNT-Ag and MWCNT-MoS4 magneto-nanomaterials in engine oil is examined. The thermal transfer of the hybrid nanofluids occurs in a vertical cylinder with thermofluidic features being considered in the model formulation. With appropriate variables, an invariant transformation of the model is obtained, which is then solved using Chebyshev Collocation Scheme (CCS). The data outcomes revealed that heat distribution is reduced with rising Prandtl number, elastic deformation and the viscoelastic term for both SWCNT-Ag and MWCNT-MoS4 hybrid nanofluids.