A. Abbasi
University of Azad Jammu and Kashmir
84 Papers
103 Citations
A. Abbasi is an academic researcher from University of Azad Jammu and Kashmir. The author has contributed to research in topics: Nanofluid & Heat transfer. The author has an hindex of 9, co-authored 37 publications.
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Papers
Heat Transport Exploration for Hybrid Nanoparticle (Cu, Fe3O4)—Based Blood Flow via Tapered Complex Wavy Curved Channel with Slip Features
A. Abbasi,W. Farooq,E. Tag-Eldin,Samiullah Khan,M. Ijaz Khan,Kamel Guedri,Samia Elattar,Muhammad Waqas,Ahmed Galal +8 more
TL;DR: In this article , the behavior of the human cardiovascular system is characterized by the Casson fluid model while the physical properties of iron (Fe3O4) and copper (Cu) are used in the analysis.
Slip flow of micropolar nanofluid over a porous rotating disk with motile microorganisms, nonlinear thermal radiation and activation energy
M. Ijaz Khan,Hassan Waqas,Sami Ullah Khan,Muhammad Imran,Yu-Ming Chu,A. Abbasi,Seifedine Kadry +6 more
TL;DR: In this paper, a 3D investigation of micropolar nanofluid has been presented under the novel impact of nonlinear thermal radiation, activation energy and magnetohydrodynamic features.
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Bioconvective flow of viscoelastic Nanofluid over a convective rotating stretching disk
TL;DR: In this article, the authors investigated the flow of viscoelastic nanofluid consisting of gyrotactic microorganism over a rotating stretching disk along with convective boundary and zero mass flux conditions.
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Thermal performance of iron oxide and copper (Fe3O4, Cu) in hybrid nanofluid flow of Casson material with Hall current via complex wavy channel
Xianqin Li,A. Abbasi,Kamel Al-Khaled,Hawzhen Fateh M.Ameen,Samiullah Khan,M. Ijaz Khan,W. Farooq,Ghulam Rasool,Kamel Guedri +8 more
TL;DR: In this article , the authors highlight the Casson hybrid nanofluid thermal inspection with blood base fluid and use the copper and iron oxide nanoparticles to assess the hybrid nanopofluide characteristics.
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Channel flow of Ellis fluid due to peristalsis
TL;DR: In this paper, an analysis of the peristaltic pumping of a non-Newtonian Ellis fluid in a planar channel was carried out, and the coupled nonlinear partial differential equations governing the problem were simplified under the widely used assumption of long wavelength and low Reynolds number.