Abstract
The heat transportation features of current liquids are improved exceptionally via suspension of nano-sized solid elements having diameter (<100nm) and are regarded as potential working liquids for the utilizations like automobile radiators, electronic chilling systems, solar collectors, heat pipes, nuclear reactors etc. Here in present investigation, nanoliquid model encompassing diffusions (thermophoresis and Brownian) is utilized to address Jeffrey material convected flow under viscous dissipation, thermo-solutal (stratifications, Robin conditions), suction/injection and Joule heating. Hydromagnetic flow persuaded by a permeable cylinder's movement is formulated. Boundary-layer approach is opted to simplify the mathematical systems. Non-dimensionalization process is done through similarity variables. Non-linear analysis is reported by utilizing homotopy concept. Besides the results are provided on physical contextual of involved constraints.
Published Version
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