K. F. U. Ahmed scite author profile

K. F. U. Ahmed

5Publications

17Citation Statements Received

84Citation Statements Given

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Bangladesh University of Engineering and Technology, Mahidol University, Centre of Excellence in Mathematics

Publications

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Performance analysis of hybrid/single nanofluids on augmentation of heat transport in lid‐driven undulated cavity

et al. 2020

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This numerical study reveals the heat transfer performance of hybrid/single nanofluids inside a liddriven sinusoidal trapezoidal-shaped enclosure. The right and left inclined surfaces of the trapezium have been considered as insulated, whereas the bottom sinusoidal wavy and the flat top surfaces of the enclosure as hot and cold, respectively. The governing partial differential equations of fluid's velocity and temperature have been resolved by applying the finite element method. The implications of Prandtl number (4.2-6.2), Richardson number (0.1-10.0), undulation number (0-3), nanoparticles volume fraction (0%-3%), and nanofluid/base fluid (water, water-copper (Cu), water-Cu-carbon nanotube, water-Cu-copper oxide (CuO), water-Cu-TiO 2 , and water-Cu-Al 2 O 3) on the velocity and temperature profiles have been studied. Simulated findings have been represented by means of streamlines, isothermal lines, and average Nusselt number of above-mentioned hybrid nanofluids for varying the governing parameters. The comparison of heat transfer rates using hybrid nanofluids and pure water has been also shown. The heat transfer rate is increased about 15% for varying Richardson number from 0.1 to 10.0. Blending of two nanoparticles suspension in base fluid has a higher heat transfer rate-approximately 5% than a mononanoparticle. Moreover, a higher average Nusselt number is obtained by 14.7% using the wavy surface than the flat surface of the enclosure. Thus, this study showed that applying hybrid nanofluid may be beneficial to obtain expected thermal performance.

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Natural convective flow in circular and arc cavities filled with water-cu nanofluid: a comparative study

Ahmed

Nasrin²,

Elias³

2018

J. nav. arch. mar. engg.

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The fluid flow and heat transfer mechanism on steady state solutions obtained in circular and arc-square enclosures filled with water/Cu nanofluid as well as base fluid has been investigated numerically by Galerkin's weighted residual finite element procedure. The left and right boundaries of the cavities are, respectively, heated and cooled at constant temperatures, while their horizontal walls are adiabatic. Effects of buoyancy force (Rayleigh number) and viscous force (Prandtl number) with a wide range of Ra (103 - 106) and Pr (4.2 - 6.2) on heat transfer phenomenon inside cavities are observed. The fluid flow and temperature gradient are shown by streamlines and isotherms patterns. From the investigation, it is reported that the Rayleigh and Prandtl numbers are playing significant role in heat transfer rate. The variation in heat transfer is calculated in terms of average Nusselt number. Heat transfer rate is found to be higher for water/Cu nanofluid with 2% solid volume fraction than pure water. About 2.7% higher heat transfer rate is obtained for circular cavity than that of arc cavity using water/Cu nanofluid at Ra = 104 and Pr = 5.8.

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Numerical simulation of mixed convection heat transfer of nanofluid in lid-driven porous medium square enclosure

Munshi

Алим

Bhuiyan

et al. 2019

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Primeness in Module Category

Sanh

Ahmed

et al. 2010

Asian-European J. Math.

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On Prime and Semiprime Goldie Modules

Sanh

Asawasamrit

Ahmed

et al. 2011

Asian-European J. Math.

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K. F. U. Ahmed

Performance analysis of hybrid/single nanofluids on augmentation of heat transport in lid‐driven undulated cavity

Natural convective flow in circular and arc cavities filled with water-cu nanofluid: a comparative study

Numerical simulation of mixed convection heat transfer of nanofluid in lid-driven porous medium square enclosure

Primeness in Module Category

On Prime and Semiprime Goldie Modules

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