Results 201 to 210 of about 48,114 (219)
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2009
Nanofluids are a new class of fluids engineered by dispersing nanometer-size structures (particles, fibers, tubes, droplets) in base fluids. The very essence of nanofluids research and development is to enhance fluid macroscale and megascale properties such as thermal conductivity through manipulating microscale physics (structures, properties and ...
Quintard, M, Wang, L
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Nanofluids are a new class of fluids engineered by dispersing nanometer-size structures (particles, fibers, tubes, droplets) in base fluids. The very essence of nanofluids research and development is to enhance fluid macroscale and megascale properties such as thermal conductivity through manipulating microscale physics (structures, properties and ...
Quintard, M, Wang, L
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2021
The nanofluids are the promising smart fluids having advanced thermophysical properties. The earlier chapters have talked about various fascinating facts about the nanofluids. One of the important aspects of the nanofluids is the stability of the nanoparticles.
Sudhakar Subudhi, Aditya Kumar
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The nanofluids are the promising smart fluids having advanced thermophysical properties. The earlier chapters have talked about various fascinating facts about the nanofluids. One of the important aspects of the nanofluids is the stability of the nanoparticles.
Sudhakar Subudhi, Aditya Kumar
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Spreading of nanofluids on solids
Nature, 2003Suspensions of nanometre-sized particles (nanofluids) are used in a variety of technological contexts. For example, their spreading and adhesion behaviour on solid surfaces can yield materials with desirable structural and optical properties. Similarly, the spreading behaviour of nanofluids containing surfactant micelles has implications for soil ...
Alex D. Nikolov, Darsh T. Wasan
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2011
Recent developments in modeling and experimental studies on nanofluidics are reviewed. Nanofluidic studies are categorized into two groups depending on the characteristic length scale. In the first group, the size of the nanochannels and pores is 5–100 nm.
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Recent developments in modeling and experimental studies on nanofluidics are reviewed. Nanofluidic studies are categorized into two groups depending on the characteristic length scale. In the first group, the size of the nanochannels and pores is 5–100 nm.
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An on-demand nanofluidic concentrator
Lab on a Chip, 2015We developed an on-demand nanofluidic concentrator that can adaptively encapsulate highly concentrated samples and enhance long-term stability for further analysis.
Shuhuai Yao +4 more
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Materials Science Forum, 2013
It has long been established that a suspension of nanosized solid particles in liquids provide useful advantages in industrial heat transfer fluid systems. Numerous investigations on nanofluids show a significant enhancement in thermal conductivity over the base fluid in which these nanoparticles are dispersed.
Ravinder Kumar Wanchoo +2 more
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It has long been established that a suspension of nanosized solid particles in liquids provide useful advantages in industrial heat transfer fluid systems. Numerous investigations on nanofluids show a significant enhancement in thermal conductivity over the base fluid in which these nanoparticles are dispersed.
Ravinder Kumar Wanchoo +2 more
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Nanofluidics in chemical analysis
Chem. Soc. Rev., 2010Nanofluidic architectures and devices have already had a major impact on forefront problems in chemical analysis, especially those involving mass-limited samples. This critical review begins with a discussion of the fundamental flow physics that distinguishes nanoscale structures from their larger microscale analogs, especially the concentration ...
Jonathan V. Sweedler +3 more
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Ionic dispersion in nanofluidics
ELECTROPHORESIS, 2006AbstractAn analytical solution for dispersion of ionic and neutral solutes in nanoscale channels is presented. Results suggest that in the presence of relatively thick electrical double layers (EDLs) characteristic of nanofluidics, the dispersion of ionic solutes differs from that of neutral solutes on which previous theory is based.
Angela De Leebeeck, David Sinton
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Lab on a Chip, 2016
Nanoscale fluid transport through conduits in the 1–100 nm range is termed as nanofluidics.
A. T. Conlisk, Shaurya Prakash
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Nanoscale fluid transport through conduits in the 1–100 nm range is termed as nanofluidics.
A. T. Conlisk, Shaurya Prakash
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Thermal Convection in Nanofluids [PDF]
, 2011 Nanofluids consist of a suspension of very small metallic like particles suspended in a carrier fluid. Typically these fluids are manufactured by using a suspension of copper, Cu, copper oxide, CuO, or aluminium oxide, Al2O3, in water or ethylene glycol, cf.
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