Radiative MHD Nanofluid Flow over a Moving Thin Needle with Entropy Generation in a Porous Medium with Dust Particles and Hall Current [PDF]
Entropy, 2020 This paper investigated the behavior of the two-dimensional magnetohydrodynamics (MHD) nanofluid flow of water-based suspended carbon nanotubes (CNTs) with entropy generation and nonlinear thermal radiation in a Darcy−Forchheimer porous medium over
Iskander Tlili +4 more
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Quasilinearization numerical technique for dual slip MHD Newtonian fluid flow with entropy generation in thermally dissipating flow above a thin needle [PDF]
Scientific Reports, 2021 In the present article, we investigate the dual slip effect namely the velocity slip and thermal slip conditions on MHD flow past a thin needle. The entropy generation for the incompressible fluids that’s water and acetone that flowing above the thin ...
Sohaib Khan +5 more
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Impact of chemical reaction on Eyring–Powell fluid flow over a thin needle with nonlinear thermal radiation [PDF]
Scientific Reports, 2023 The thin needle is viewed as a revolutionary object since it has a thinner thickness than a boundary layer. As a consequence, scientific and engineering applications for instance electrical equipment, hot wire anemometers and geothermal power generation ...
Muhammad Nadeem +5 more
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Thermodynamic Analysis of Entropy Generation Minimization in Thermally Dissipating Flow Over a Thin Needle Moving in a Parallel Free Stream of Two Newtonian Fluids [PDF]
Entropy, 2019 This article is devoted to study sustainability of entropy generation in an incompressible thermal flow of Newtonian fluids over a thin needle that is moving in a parallel stream. Two types of Newtonian fluids (water and air) are considered in this work.
Ilyas Khan +4 more
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Effects of MHD and porosity on entropy generation in two incompressible Newtonian fluids over a thin needle in a parallel free stream [PDF]
Scientific Reports, 2020 This article is devoted to studying Magnetohydrodynamic (MHD)'s combined effect and porosity on the entropy generation in two incompressible Newtonian fluids over a thin needle moving in a parallel stream.
Farhad Ali +4 more
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Comparison of a Reduced Needle With a Thin Tip and a Standard Thin Needle (Same Width Overall) for Oocyte Retrieval. [PDF]
CureusAt our facility, oocyte retrieval had previously been performed with a 20-gauge standard needle that is uniformly thin overall (tSN); but recently, we have instead started using reduced needles, with a 20-gauge tip and 17-gauge body (RN). Until now, there have been comparisons between RN and thick standard needles, but there have been no comparisons ...
Nakabayashi A +5 more
europepmc +3 more sources
Case Studies in Thermal Engineering, 2021 In this article, we investigated entropy generation analysis for viscous fluid over a thin needle. Two types of viscous fluids namely air and water are considered as counter examples. The energy dissipating term is included in the axial direction.
Sohaib Khan +5 more
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Hybrid Nanofluid Flow Past a Permeable Moving Thin Needle
Mathematics, 2020 The problem of a steady flow and heat transfer past a permeable moving thin needle in a hybrid nanofluid is examined in this study. Here, we consider copper (Cu) and alumina (Al2O3) as hybrid nanoparticles, and water as a base fluid.
Iskandar Waini, Anuar Ishak, Ioan Pop
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Stability Analysis of Mixed Convection Flow towards a Moving Thin Needle in Nanofluid
Applied Sciences, 2018 The problem of steady laminar mixed convection flow and heat transfer past a moving vertical thin needle in nanofluid for both assisting and opposing cases is analyzed in this paper.
Siti Nur Alwani Salleh +4 more
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Computation, 2023 This investigation focuses on the impact of Stefan blowing on the flow of hybrid nanoliquids over a moving slender needle with magnetohydrodynamics (MHD), thermal radiation, and entropy generation.
Vinodh Srinivasa Reddy +2 more
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