Insight into the cilia motion of electrically conducting Cu-blood nanofluid through a uniform curved channel when entropy generation is significant

“…12 Javid et al 13 discussed the motion of viscoelastic fluid assisted by cilia in a divergent channel with porosity aspects. The cilia-generated flow of hybrid nanofluid in a bending channel under the suppositions of large wavelength and small Reynolds number was analyzed by Ijaz et al 14 The cilia motion of electrically conducting Cu-blood nanofluid through a uniform curved channel when entropy generation is significant was reported by Riaz et al 15 Imran et al 16 discussed the electro-osmotic flow of the Williamson fluid model by incorporating heat transfer phenomena in a micro-ciliated channel. The mixed convective flow of non-Newtonian Casson fluid by metachronal waves of biomimetic cilia in the curved channel under lubrication approximation theory was reported by Shakib Arslan et al 17 The shear-dependent peristaltic flow of Carreau-Yasuda fluid inside the micro-channel by incorporating the ciliary walls was inspected by Kada et al 18 It is well-known that the flow phenomena of non-Newtonian fluids arise in various engineering, industrial, and technological applications.…”

Simulation of fourth‐grade magnetized fluid flow due to motile cilia in a heated curved channel

“…12 Javid et al 13 discussed the motion of viscoelastic fluid assisted by cilia in a divergent channel with porosity aspects. The cilia-generated flow of hybrid nanofluid in a bending channel under the suppositions of large wavelength and small Reynolds number was analyzed by Ijaz et al 14 The cilia motion of electrically conducting Cu-blood nanofluid through a uniform curved channel when entropy generation is significant was reported by Riaz et al 15 Imran et al 16 discussed the electro-osmotic flow of the Williamson fluid model by incorporating heat transfer phenomena in a micro-ciliated channel. The mixed convective flow of non-Newtonian Casson fluid by metachronal waves of biomimetic cilia in the curved channel under lubrication approximation theory was reported by Shakib Arslan et al 17 The shear-dependent peristaltic flow of Carreau-Yasuda fluid inside the micro-channel by incorporating the ciliary walls was inspected by Kada et al 18 It is well-known that the flow phenomena of non-Newtonian fluids arise in various engineering, industrial, and technological applications.…”

Simulation of fourth‐grade magnetized fluid flow due to motile cilia in a heated curved channel

“…Yurusoy and Pakdemirli 14 obtained the accurate solutions to the equations regulating the flow of a non-Newtonian fluid towards a stretched sheet. The visco-elastic fluid flow through a permeable media was described by Prasad et al 15 as a result of the consequences of reaction rate on the transportation of chemically reactive species towards a stretched sheet. Riaz et al 16 addressed the entropy generation impacts and irreversibility comparison flow of Cu-blood nanofluid flow under the applied magnetic field and viscous dissipation impacts through a curved channel.…”

Flow investigation of the stagnation point flow of micropolar viscoelastic fluid with modified Fourier and Fick’s law

“…Furthermore, some new advance and unique applications of MHD in fluid flow problems have been investigated by Rashid et al [ 38 ] where the authors inspected EMHD nanofluid in curved channel through corrugated walls. Riaz et al [ 39 ] describe some new insight into the cilia motion through electrically conducting fluid with MHD applications. Some other advance applications of MHD in various real-life applications is given in Refs.…”

A fractional model of magnetohydrodynamics Oldroyd-B fluid with couple stresses, heat and mass transfer: A comparison among Non-Newtonian fluid models