2009
DOI: 10.1016/j.ijheatmasstransfer.2009.04.029
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An experimental study on the effect of ultrasonication on viscosity and heat transfer performance of multi-wall carbon nanotube-based aqueous nanofluids

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Cited by 458 publications
(244 citation statements)
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“…The sonication time was therefore suggested as a parameter to identify the degree of CNT dispersion [7,11]. However, other researchers [11][12][13][14] observed that the dispersion degree of a given CNT suspension depended on the sonication energy, rather than the sonication time. The sonication energy (E, J/mL), which is defined using the following equation, was therefore used to identify the degree of CNT dispersion [13]:…”
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confidence: 99%
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“…The sonication time was therefore suggested as a parameter to identify the degree of CNT dispersion [7,11]. However, other researchers [11][12][13][14] observed that the dispersion degree of a given CNT suspension depended on the sonication energy, rather than the sonication time. The sonication energy (E, J/mL), which is defined using the following equation, was therefore used to identify the degree of CNT dispersion [13]:…”
mentioning
confidence: 99%
“…These results indicated that an insufficient supply of sonication energy could lead to the insufficient dispersion of CNTs, and dispersed CNT particles that are not small enough [12,13], while excessive sonication energy would not be economical. In previous studies, the sonication energies (E) applied to disperse CNTs in surfactant solutions ranged from 320 to 50400 J/mL, with the sonication time (t) ranging from 5 to 120 min (Table 1) [11,12,[15][16][17][18][19][20]. It is therefore necessary to examine the role of the sonication energy in surfactant-assisted CNT dispersion, to facilitate the effective use of energy in the industrial applications of CNTs.…”
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confidence: 99%
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“…% of CNT) nanofluid a heat transfer enhancement of 350%. Garg et al [8] and Lao and Liu [9] reported much lower local heat transfer coefficient enhancements for CNT nanofluids when they used a higher solid concentration.…”
Section: -Introductionmentioning
confidence: 98%
“…Ding et al and Garg et al [7,8] explained the mechanism of improved heat transfer for carbon nano-tube (CNT) nanofluid by a three dimensional web of nanotubes with heat transferred within the nanotubes, which has a much higher thermal conductivity than the base fluid. Ding et al [7] reported for carbon nano-tube (CNT) and water (0.5 wt.…”
Section: -Introductionmentioning
confidence: 99%