Numerical simulation of unsteady ethylene glycol/CNTs micropolar nanofluid flow through a squeezing channel: An approach to industrial applications

Abstract: The impressive high thermal conductivity and low weight allow the carbon nanotubes (CNTs) to improve heat dissipation and cooling. In the present problem, we aim to analyze the CNTs embedded micropolar nanofluid flow between two parallel stretching sheets with the base fluid ethylene glycol (EG) which is effectively used as antifreeze and coolant. Both single‐walled carbon nanotubes and multiwalled carbon nanotubes (MWCNTs) are considered. The fluid is influenced by the external magnetic field parallel to the … Show more

“…The impact of a chemical reaction and a changeable transverse magnetic field with free convection of a nanoliquid flow via an exponentially stretching sheet was studied by Nayak 25 . Several efforts at addressing the impact of a chemical reaction on the motion of an MHD fluid are documented in Mabood and colleagues 26–32 . The elevated chemical parameter was hypothesized to cause a global collapse in the concentration distribution, which they investigated.…”

“…25 Several efforts at addressing the impact of a chemical reaction on the motion of an MHD fluid are documented in Mabood and colleagues. [26][27][28][29][30][31][32] The elevated chemical parameter was hypothesized to cause a global collapse in the concentration distribution, which they investigated.…”

Rotation, electromagnetic field, and variable thermal conductivity effects on free convection flow past an eternity vertical porous plate

“…The impact of a chemical reaction and a changeable transverse magnetic field with free convection of a nanoliquid flow via an exponentially stretching sheet was studied by Nayak 25 . Several efforts at addressing the impact of a chemical reaction on the motion of an MHD fluid are documented in Mabood and colleagues 26–32 . The elevated chemical parameter was hypothesized to cause a global collapse in the concentration distribution, which they investigated.…”

“…25 Several efforts at addressing the impact of a chemical reaction on the motion of an MHD fluid are documented in Mabood and colleagues. [26][27][28][29][30][31][32] The elevated chemical parameter was hypothesized to cause a global collapse in the concentration distribution, which they investigated.…”

Rotation, electromagnetic field, and variable thermal conductivity effects on free convection flow past an eternity vertical porous plate

Keller-box based computational investigation of magnetized gravity-driven Micropolar nanofluid flow past an exponentially contracting surface with cross diffusion effect and engineering applications

Numerical simulation of rotating flow of CNT nanofluids with thermal radiation, ohmic heating, and autocatalytic chemical reactions