Size effect on thermal conductivity and stability of TiO2/MWCNT-based hybrid nanofluids synthesized via probe ultrasonication
S. Heshmatian, M. Aligholami, S. Shafiei, I. G. Madiba, S. Azizi, Ahmed A. Hussein, M. Maaza

TL;DR
A new method creates stable nanofluids with improved heat transfer at very low material concentrations.
Contribution
First surfactant-free, scalable method achieving double-digit thermal conductivity enhancement at ultra-low solid loadings.
Findings
15 nm TiO2 at 0.01 wt% achieved 16.7% thermal conductivity enhancement.
Nanofluids remained stable for over four weeks without surfactants.
Probe-ultrasonication produced homogeneous hybrid nanofluids at ultra-low loadings.
Abstract
This study reports the enhancement of thermal conductivity in hybrid TiO2 grafted onto multi-wall carbon nanotubes (MWCNTs) dispersed in an ethylene glycol nanofluid synthesized by a scalable probe-ultrasonication process. The hybrid nanofluids were formulated at ultra-low loadings; MWCNT = 0.001 wt% (fixed) and TiO2 = 0.001–0.01 wt% (15 nm and 30 nm). The 15 nm TiO2 sample at 0.01 wt% achieved 16.7% thermal conductivity enhancement at 70 °C while maintaining >4 weeks stability. To the best of our knowledge, this is the first report achieving double-digit conductivity improvement at ≤0.01 wt% solids using a surfactant-free, scalable probe-ultrasonication route. Homogeneous and stable TiO2/MWCNT nanofluids were produced using a surfactant-free approach, and their performance was validated through Raman spectroscopy, Zetasizer, TEM, and UV-Vis analyses. Formulations with ultra-low…
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Taxonomy
TopicsThermal properties of materials · Nanofluid Flow and Heat Transfer · Solar-Powered Water Purification Methods
