Atrehar Abir scite author profile

Atrehar Abir

3Publications

20Citation Statements Received

101Citation Statements Given

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166

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Islamic University of Technology

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Numerical investigation of the thermo‐hydraulic performance of water‐based nanofluids in a dimpled channel flow using Al₂O₃, CuO, and hybrid Al₂O₃–CuO as nanoparticles

Ahmed¹,

Abir

Fuad³

et al. 2021

Heat Trans

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In this study, the authors study the impact of spherical dimple surfaces and nanofluid coolants on heat transfer and pressure drop. The main objective of this paper is to evaluate the thermal performance of nanofluids with respect to different Reynolds numbers (Re) and nanoparticle compositions in dimpled channel flow. Water‐based nanofluids with Al 2 O 3, CuO, and Al 2 O 3–CuO nanoparticles are considered for this investigation with 1%, 2%, and 4% volume fraction for each nanofluid. The simulations are conducted at low Reynolds numbers varying from 500 to 1250, assuming constant and uniform heat flux. The effective properties of nanofluids are estimated using models proposed in the literature and are combined with the computational fluid dynamics solver ANSYS Fluent for the analysis. The results are discussed in terms of heat transfer coefficient, temperature distributions, pressure drop, Nusselt number, friction factors, and performance criterion for all the cases. For all cases of different nanoparticle compositions, the heat transfer coefficient was seen as 35%–46% higher for the dimpled channel in comparison with the smooth channel. Besides, it was observed that with increasing volume fraction, the values of heat transfer and pressure drop were increased. With a maximum of 25.18% increase in the thermal performance, the 1% Al 2 O 3/water was found to be the best performing nanofluid at Re = 500 in the dimpled channel flow.

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Thermohydraulic performance of water mixed Al2O3,TiO2
Ahmed¹,
Abir
²
,
Bhowmik
³

et al. 2021
Thermal Science and Engineering Progress
13
1
5
0
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The impact of D-shaped jaggedness on heat transfer enhancement technique using Al2O3 based nanoparticles

Ahmed¹,

Abir

Redwan

et al. 2021

International Journal of Thermofluids

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Atrehar Abir

Numerical investigation of the thermo‐hydraulic performance of water‐based nanofluids in a dimpled channel flow using Al₂O₃, CuO, and hybrid Al₂O₃–CuO as nanoparticles

Thermohydraulic performance of water mixed Al2O3,TiO2
Ahmed¹,
Abir
²
,
Bhowmik
³

et al. 2021
Thermal Science and Engineering Progress
13
1
5
0
View full text Add to dashboard Cite

The impact of D-shaped jaggedness on heat transfer enhancement technique using Al2O3 based nanoparticles

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Atrehar Abir

Numerical investigation of the thermo‐hydraulic performance of water‐based nanofluids in a dimpled channel flow using Al2O3, CuO, and hybrid Al2O3–CuO as nanoparticles

Thermohydraulic performance of water mixed Al2O3,TiO2Ahmed1, Abir2, Bhowmik3 et al. 2021Thermal Science and Engineering Progress13150View full textAdd to dashboardCite

The impact of D-shaped jaggedness on heat transfer enhancement technique using Al2O3 based nanoparticles

Contact Info

Product

Resources

About

Numerical investigation of the thermo‐hydraulic performance of water‐based nanofluids in a dimpled channel flow using Al₂O₃, CuO, and hybrid Al₂O₃–CuO as nanoparticles

Thermohydraulic performance of water mixed Al2O3,TiO2
Ahmed¹,
Abir
²
,
Bhowmik
³

et al. 2021
Thermal Science and Engineering Progress
13
1
5
0
View full text Add to dashboard Cite