@Article{BuschmannHumManRieHum:2019:StArHe,
author = "Buschmann, M. H. and Huminic, A. and Mancin, S. and Riehl, Roger
Ribeiro and Huminic, G.",
affiliation = "{Institut f{\"u}r Luft-und K{\"a}ltetechnik gGmbH} and
{Transilvania University of Brasov} and {University of Padova} and
{Instituto Nacional de Pesquisas Espaciais (INPE)} and
{Transilvania University of Brasov}",
title = "State of the art of heat transfer of heat pipes and thermosyphons
employing nanofluids as working fluid",
journal = "Journal of Nanofluids",
year = "2019",
volume = "8",
number = "2",
pages = "253--266",
month = "Feb.",
keywords = "HEAT PIPES, HEAT TRANSFER CHARACTERISTICS, NANOFLUIDS, NANOFLUIDS
DEPOSITION, THERMOSYPHONS.",
abstract = "The paper presents an overview on recent research concerning heat
transfer using two-phase devices, namely thermosyphons, heat
pipes, and pulsating heat pipes using nanofluids as working fluids
in order to emphasise their potential in heat transfer. Relevant
experiments performed by the authors are presented in order to
support the conclusions, together with some theoretical
considerations about the heat transfer using nanofluids, their
selection and application, and the effects of nanoparticle
deposition due to nanofluid boiling. As shown, there is a
significant potential of using nanofluids in two-phase heat
transfer devices, and their success in improvement of the thermal
performance of these devices depends on the transport of
nanoparticles, which can occur if the vapour has the potential to
transport the nanoparticles with it.",
doi = "10.1166/jon.2019.1597",
url = "http://dx.doi.org/10.1166/jon.2019.1597",
issn = "2169-432X",
language = "en",
urlaccessdate = "23 abr. 2024"
}