Analysis of Magnetic Resistive Flow of Generalized Brinkman Type Nanofluid Containing Carbon Nanotubes with Ramped Heating

In recent times, scientists and engineers have been most attracted to electrically conducted nanofluids due their numerous applications in various fields of science engineering. For example, they are used cancer treatment (hyperthermia), magnetic resonance imaging (MRI), drug-delivery, refrigeration (MR). Bearing mind the significance importance nanofluids, this article aims study an water-based nanofluid containing carbon nanotubes (CNTs). CNTs two types, single-wall (SWCNTs) multiple-wall (MWCNTs). The (SWCNTs MWCNTs) dispersed regular water as base fluid form water-CNTs nanofluid. Brinkman Type model is developed terms time-fractional domain. ramped heating sinusoidal oscillations conditions taken at boundary. has solved for exact analytical solutions via fractional Laplace transform method. graphically studied explore physics pertinent flow parameters on velocity temperature fields. empirical results reveal that decreased with increasing values variation thermal momentum boundary layers. It also indicated isothermal higher than temperature.