J.L. Routbort scite author profile

The effect of average particle sizes on basic macroscopic properties and heat transfer performance of alpha-SiC/water nanofluids was investigated. The average particle sizes, calculated from the specific surface area of nanoparticles, were varied from 16 to 90 nm. Nanofluids with larger particles of the same material and volume concentration provide higher thermal conductivity and lower viscosity increases than those with smaller particles because of the smaller solid/liquid interfacial area of larger particles. It was also demonstrated that the viscosity of water-based nanofluids can be significantly decreased by pH of the suspension independently from the thermal conductivity. Heat transfer coefficients were measured and compared to the performance of base fluids as well as to nanofluids reported in the literature. Criteria for evaluation of the heat transfer performance of nanofluids are discussed and optimum directions in nanofluid development are suggested.

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Designing for ultrahigh-temperature applications: The mechanical and thermal properties of HfB₂, HfC_x, HfN_xand Hf(N)

Wuchina

Opeka

Causey

et al. 2004

Journal of Materials Science

255

134

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Review and assessment of nanofluid technology for transportation and other applications.

Yu¹,

Choi²,

Routbort³

2007

159

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J.L. Routbort

Review and Comparison of Nanofluid Thermal Conductivity and Heat Transfer Enhancements

Particle shape effects on thermophysical properties of alumina nanofluids

Particle size and interfacial effects on thermo-physical and heat transfer characteristics of water-based α-SiC nanofluids

Designing for ultrahigh-temperature applications: The mechanical and thermal properties of HfB₂, HfC_x, HfN_xand Hf(N)

Review and assessment of nanofluid technology for transportation and other applications.

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J.L. Routbort

Review and Comparison of Nanofluid Thermal Conductivity and Heat Transfer Enhancements

Particle shape effects on thermophysical properties of alumina nanofluids

Particle size and interfacial effects on thermo-physical and heat transfer characteristics of water-based α-SiC nanofluids

Designing for ultrahigh-temperature applications: The mechanical and thermal properties of HfB2, HfCx, HfNxand Hf(N)

Review and assessment of nanofluid technology for transportation and other applications.

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Product

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Designing for ultrahigh-temperature applications: The mechanical and thermal properties of HfB₂, HfC_x, HfN_xand Hf(N)