THERMAL SCIENCE

International Scientific Journal

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Rou-Xi Chen

,

Ling Lin

,

Ji-Huan He

FROM THE GUEST EDITORS: NANOTHERMODYNAMICS FOR MATERIALS, ENERGY, AND ENVIRONMENTAL SCIENCES

ABSTRACT
Nanoscale flow and heat transfer are widely observed in modern industry. The nanoeffect in nanothermodynamics is generally 5 to 7 orders of magnitude higher or lower than its macro partner.
KEYWORDS
nanofibers, nanoeffect, bubble-electrospinning, solvent evaporation, nanoporous fibers
PAPER SUBMITTED: 2014-07-01
PAPER REVISED: 1970-01-01
PAPER ACCEPTED: 2014-07-02
PUBLISHED ONLINE: 2015-01-04
CITATION EXPORT: view in browser or download as text file
THERMAL SCIENCE YEAR 2014, VOLUME 18, ISSUE Issue 5, PAGES [0 - 0]
REFERENCES
  1. He, J. H., et al., Nano-Effects, Quantum-Like Properties in Electrospun Nanofibers, Chaos, Solitons and Fractals, 33 (2007), 1, pp. 26-37
  2. Craig, V. S. J., Very Small Bubbles at Surfaces the Nanobubble Puzzle, Soft Matter, 7 (2011), 1, pp. 40-48
  3. Taleyarkhan, R. P., et al., Evidence for Nuclear Emissions during Acoustic Cavitation, Science, 295 (2002), 5561, pp. 1868-1873
  4. Brumfiel, G., Bubble Fusion Dispute Reaches Boiling Point, Nature, 416 (2002), 6876, pp. 7
  5. He, J.-H., et al., Review on Fiber Morphology Obtained by Bubble Electrospinning and Blown Bubble Spinning, Thermal Science, 16 (2012), 5, pp. 1263-1279
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From the Guest editors: NANOTHERMODYNAMICS FOR MATERIALS, ENERGY, AND ENVIRONMENTAL SCIENCES

© 2024 Society of Thermal Engineers of Serbia. Published by the Vinča Institute of Nuclear Sciences, National Institute of the Republic of Serbia, Belgrade, Serbia. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International licence