Shaimaa F. Ramadan scite author profile

Shaimaa F. Ramadan

5Publications

43Citation Statements Received

63Citation Statements Given

How they've been cited

107

How they cite others

Affiliations

Al Azhar University

Publications

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New insight into gyrotactic microorganisms for bio-thermal convection of Prandtl nanofluid over a stretching/shrinking permeable sheet

Mekheimer

Ramadan

2020

SN Appl. Sci.

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The use of nanoparticles, has become increasingly utilized for medical applications and is of great interest as an approach to killing or reducing the activity of numerous microorganisms. The motivation of the present study is to scrutinize the impacts of magnetic field, radiation and chemical reaction on non-Newtonian Prandtl fluid containing gyrotactic microorganisms and nanoparticles. The governing nonlinear partial differential equations are decreased to nonlinear ordinary differential equations using appropriate similarity transformation. Our system of equations are solved numerically by using Rung-Kutta-Merson method with Newton iteration in a shooting and matching technique. The impacts of various parameters on velocity, temperature, nanoparticles concentration and density of motile microorganisms for suction (f w > 0), injection (f w < 0) and the case of impermeable plate surface (f w = 0) have been made.

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Phan-Thien-Tanner Nanofluid Flow With Gold Nanoparticles Through a Stenotic Electrokinetic Aorta: A Study on the Cancer Treatment

et al. 2021

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On the Stability of Convection in a Non-Newtonian Vertical Fluid Layer in the Presence of Gold Nanoparticles: Drug Agent for Thermotherapy

et al. 2021

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We consider the effect of gold nanoparticles on the stability properties of convection in a vertical fluid layer saturated by a Jeffreys fluid. The vertical boundaries are rigid and hold at uniform but different temperatures. Brownian diffusion and thermophoresis effects are considered. Due to numerous applications in the biomedical industry, such a study is essential. The linear stability is investigated through the normal mode disturbances. The resulting stability problem is an eighth-order ordinary differential complex eigenvalue problem that is solved numerically using the Chebyshev collection method. Its solution provides the neutral stability curves, defining the threshold of linear instability, and the critical parameters at the onset of instability are determined for various values of control parameters. The results for Newtonian fluid and second-grade fluid are delineated as particular cases from the present study. It is shown that the Newtonian fluid has a more stabilizing effect than the second-grade and the Jeffreys fluids in the presence of gold nanoparticles and, Jeffreys fluid is the least stable.

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Impacts of peristaltic flow of micropolar fluid with nanoparticles through a porous medium under the effects of heat absorption and wall properties: Homotopy perturbation method

Eldabe

Ramadan

2019

Heat Trans

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In the present examination, we have talked about the impacts of heat absorption, chemical reaction, and wall properties on the peristaltic stream of micropolar nanofluid through a permeable medium. The key conditions of the movement are first regulated and after that streamlined under the suspicions of long wavelength and low Reynolds number. The careful arrangements have been determined for the velocity and the microrotation velocity, while the administering conditions of energy and nanoparticle conditions are solved analytically utilizing the homotopy perturbation technique. At last, graphical outcomes are talked about to represent the impacts of different physical parameters of the issue on these dispersions.

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New Insight into Gyrotactic Microorganisms in Anti-Infection Agents Through Wavy Deformable Catheter/Endoscope with Non-Linear Thermal Radiation: Numerical Study

Mekheimer¹,

Ramadan²

2020

ARFMTS

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The reason for this work is to assess the impact of the peristaltic flow of Jeffery nanofluid containing motile gyrotactic microorganisms. This problem can be considered a numerical depiction of the fluid move through an endoscope or catheter tube. Where the catheter is covered with a blend of anti-infection agents and nanoparticles to oppose the formation of vital membranes. The effects of non-linear thermal radiation, viscous dissipation, and magnetic field are taken into consideration. Both inward and the external cylinders have sinusoidal waves traveling along their walls since there is a coupling between the occlusion of the external cylinder and the radius ratio. For long wavelength and low Reynolds number, a numerical study by using the Rung-Kutta-Merson method with Newton iteration in a shooting and matching technique is performed. The effect of physical implanted parameters is represented through a lot of charts for velocity, temperature, nanoparticle concentration, the density of motile microorganisms, shear stress, pressure rise, and pressure gradient.

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