S. Kakaç scite author profile

Adding small particles into a fluid in cooling and heating processes is one of the methods to increase the rate of heat transfer by convection between the fluid and the surface. In the past decade, a new class of fluids called nanofluids, in which particles of size 1-100 nm with high thermal conductivity are suspended in a conventional heat transfer base fluid, have been developed. It has been shown that nanofluids containing a small amount of metallic or nonmetallic particles, such as Al 2 O 3 , CuO, Cu, SiO 2 , TiO 2 , have increased thermal conductivity compared with the thermal conductivity of the base fluid. In this work, effective thermal conductivity models of nanofluids are reviewed and comparisons between experimental findings and theoretical predictions are made. The results show that there exist significant discrepancies among the experimental data available and between the experimental findings and the theoretical model predictions.

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A review of numerical modeling of solid oxide fuel cells

Kakaç

Pramuanjaroenkij

Zhou

2007

International Journal of Hydrogen Energy

468

162

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A Review of two-phase flow dynamic instabilities in tube boiling systems

Kakaç

Bon

2008

International Journal of Heat and Mass Transfer

353

127

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Convective Heat Transfer

Kakaç¹,

Yener²,

Pramuanjaroenkij³

2013

115

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Performance analysis of photovoltaic thermal air heaters

Sopian

Yiğit

Liu

et al. 1996

Energy Conversion and Management

202

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Slip-flow heat transfer in microtubes with axial conduction and viscous dissipation – An extended Graetz problem

Çetin

Yazıcıoğlu

Kakaç

2009

International Journal of Thermal Sciences

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S. Kakaç

Review of convective heat transfer enhancement with nanofluids

Two‐dimensional model for proton exchange membrane fuel cells

Enhanced thermal conductivity of nanofluids: a state-of-the-art review

A review of numerical modeling of solid oxide fuel cells

A Review of two-phase flow dynamic instabilities in tube boiling systems

Convective Heat Transfer

Performance analysis of photovoltaic thermal air heaters

Slip-flow heat transfer in microtubes with axial conduction and viscous dissipation – An extended Graetz problem

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