Review on Nanofluids: Preparation, Properties, Stability, and Thermal Performance Augmentation in Heat Transfer Applications

Rahman, Md Atiqur; Hasnain, S. M. Mozammil; Pandey, Shatrudhan; Tapalova, Anipa; Akylbekov, Nurgali; Zairov, Rustem

doi:10.1021/acsomega.4c03279

ACS Omega

2024

DOI: 10.1021/acsomega.4c03279

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Review on Nanofluids: Preparation, Properties, Stability, and Thermal Performance Augmentation in Heat Transfer Applications

Md Atiqur Rahman,

S. M. Mozammil Hasnain,

Shatrudhan Pandey

et al.

Abstract: Nanoparticles play a crucial role in enhancing the thermal and rheological properties of nanofluids, making them a valuable option for increasing the efficiency of heat exchangers. This research explores how nanoparticle characteristics, such as concentration, size, and shape, impact the properties of nanofluids. Nanofluids' thermophysical properties and flow characteristics are essential in determining heat transfer efficiency and pressure loss. Nanoparticles with high thermal conductivity, such as metallic o… Show more

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Cited by 3 publications

References 243 publications

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Advancing thermal management in electronics: a review of innovative heat sink designs and optimization techniques

Rahman,

Hasnain,

Paramasivam

et al. 2024

RSC Adv.

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Advancing thermal management in electronics: a review of innovative heat sink designs and optimization techniques

Rahman,

Hasnain,

Paramasivam

et al. 2024

RSC Adv.

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Experimental investigations on thermo-fluid performance of perforated baffle aided with oppositely oriented sawtooth deflector in tubular heat exchanger

Rahman

2024

WJE

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Purpose The investigation concentrated on studying a distinct category of tubular heat exchanger that uses swirling airflow over tube bundle maintained at constant heat flux. Swirl flow is achieved using a novel perforated baffle plate with rectangular openings and multiple adjustable opposite-oriented saw-tooth flow deflectors. These deflectors were strategically placed at the inlet of the heat exchanger to create a swirling flow downstream. Design/methodology/approach The custom-built axial flow heat exchanger consists of three baffle plates arranged longitudinally supporting tube bundle maintained at constant heat flux. The baffle plate equipped with saw-tooth flow deflector of various geometry represented by space height ratio(e/h). Next, ambient air was then directed over the tube bundle at varying Reynolds number and the effect of baffle spacing (PR), Space height ratio (e/h) and inclination angle(a) of deflectors on performance of heat exchanger was experimentally analyzed. Findings The heat transfer augmentation of heat exchanger for given operating condition is strongly dependent on geometry, inclination angle of deflector and baffle spacing. Originality/value An average improvement of 1.42 times in thermal enhancement factor was observed with inclination angle of 30°, space height ratio of 0.4 and a pitch ratio of 1.2 when compared to a heat exchanger without a baffle plate under similar operating conditions.

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Influence of Applying Magnetic Field on Thermal and Hydraulic Characteristics of Fe3o4/Water Magnetic Nanofluid Moving in a Twisted Duct

Halawa

2025

J Enh Heat Transf

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This study introduces an investigation of the effect of combining passive and active techniques on enhancing heat transfer by using a ferrofluid passing through a twisted duct subjected to an external magnetic field. The effect of changing the number of magnets, magnetic flux density, nanoparticle volume fraction, and twist ratio on the heat transfer enhancement is studied. The optimum magnetic field configuration was achieved by adjusting the rate of increase of magnetic flux density to 80% between each two successive magnets. Results show that the proposed hybrid technique is promising in providing significant heat transfer enhancement compared to the traditional techniques, but the pressure drop values become relatively higher due to the increased friction levels. The twist ratio value that achieves the optimum thermo-hydraulic performance is found to be 3.7. The limit of magnetic flux density, which, if exceeded, causes the thermo-hydraulic performance to decline, is 800 Gauss. It is found that applying a magnetic field with 1,000 Gauss flux density with a nanoparticle volume concentration of 5% and a twist ratio of 3.7 at Reynolds number of 8,400, enhances the Nusselt number by 25.78% compared to the case using water without twisting in the absence of a magnetic field.

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Review on Nanofluids: Preparation, Properties, Stability, and Thermal Performance Augmentation in Heat Transfer Applications

Cited by 3 publications

References 243 publications

Advancing thermal management in electronics: a review of innovative heat sink designs and optimization techniques

Advancing thermal management in electronics: a review of innovative heat sink designs and optimization techniques

Experimental investigations on thermo-fluid performance of perforated baffle aided with oppositely oriented sawtooth deflector in tubular heat exchanger

Influence of Applying Magnetic Field on Thermal and Hydraulic Characteristics of Fe3o4/Water Magnetic Nanofluid Moving in a Twisted Duct

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