@InProceedings{DoniniFachCrisBrue:2020:SoSpAs,
author = "Donini, Mariovane Sabino and Fachini Filho, Fernando and
Cristaldo, Cesar and Bruel, Pascal",
affiliation = "{Instituto Nacional de Pesquisas Espaciais (INPE)} and {Instituto
Nacional de Pesquisas Espaciais (INPE)} and {Universidade Federal
do Pampa (UNIPAMPA)} and {University Pau \& Pays Adour}",
title = "Some Specific Aspects Related To The Use Of The
ArtificialCompressibility Methods To Simulate Unsteady Flows",
booktitle = "Proceedings...",
year = "2020",
organization = "World Congress on Momentum, Heat and Mass Transfer, 5.",
keywords = "Inert wake, buoyant diffusion flame, Tsuji configuration, finite
volume method.",
abstract = "The artificial compressibility method is applied to simulate
non-reactive and reactive flows with incompressible and
infiniterate chemistry assumptions. To validate the implemented
time-accurate approach, the resulting code is used to calculate
three different flow regimes: an unsteady non-reactive flow past a
circular cylinder, a steady diffusion Tsuji flame and an unsteady
buoyant diffusion flame. As expected, the results evidence the
strong dependence of the convergence rate to the artificial
compressibility factor. They also show the ability of this
approach to describe the circular cylinder wake unsteadiness as
well as the flame shape of the steady diffusion flame. In return,
the correct prediction of the low-frequency instability known to
be featured by unsteady buoyant diffusion flames is presently out
of reach of the present version of the methodology.",
doi = "10.11159/csp20.107",
url = "http://dx.doi.org/10.11159/csp20.107",
label = "lattes: 7407930469075616 1 DoniniFachCrisBrue:2020:SoSpAs",
language = "pt",
targetfile = "donini_some.pdf",
urlaccessdate = "20 maio 2024"
}