Description
The colloidal solutions of nanoparticles have been seen as promising solutions forheat transfer enhancement. Additionally, there has been an accelerated study on the effects
of ultrasound on heat transfer enhancement in recent years. A few authors have studied the
combined impact of Al2O3 nanofluids and ultrasound on mini channels. This study focused
on the combined effects of Al2O3 nanofluids and ultrasound on heat transfer enhancement
in a circular mini channel heat sink. Two concentrations of Al2O3-water nanofluids, i.e.,
0.5% and 1%, were used for the experiments in addition to two heat input conditions,
namely 40 W and 50 W providing a constant heat flux of 25000 W m-2 and 31250 W m-2
respectively. The effect on the nanofluids using 5 W ultrasound was analyzed.
Experimental observations show that the usage of ultrasound increased the heat transfer
coefficient. The heat transfer coefficient also increased with increasing nanoparticle
concentration and high heat flux. The average heat transfer coefficient enhancement for
0.5% and 1% nanofluid due to increased heat flux in the absence of ultrasound was 12.4%
and 9% respectively. At a constant heat input of 40 W, the induction of ultrasound
enhanced the heat transfer coefficient by 22.8% and 23.9% for 0.5% and 1% nanofluid
respectively. Similarly, for a constant heat input of 50 W, the usage of ultrasound enhanced
the heat transfer coefficient by 19.8% and 22.9% for 0.5% and 1% nanofluid respectively
Also, interesting findings are reported with low heat input with ultrasound vs. high heat
input without ultrasound (i.e., 40 W with US vs. 50 W without US). The heat transfer
coefficient and Nusselt number for 0.5% and 1% concentrations was enhanced by 9.2%
and 13.6%, respectively. Furthermore, for fixed heat input powers of 40 W and 50 W, increasing the concentration from 0.5% to 1% along with ultrasound yielded an average
enhancement in Nu of 38.3% and 32.4% respectively
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Details
Title
- Experimental Investigation of the Combined Effect of Al2O3 Nanoparticles and Ultrasound on Convective Heat Transfer under Laminar Flow Condition in a Circular Mini Channel Heat Sink
Contributors
- Mastoi, Faisal Ali (Author)
- Phelan, Patrick E (Thesis advisor)
- Milcarek, Ryan (Committee member)
- Kwon, Beomjin (Committee member)
- Arizona State University (Publisher)
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
2022
Subjects
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Note
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Partial requirement for: M.S., Arizona State University, 2022
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Field of study: Mechanical Engineering