SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2133035264> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W2133035264 endingPage "683" @default.
W2133035264 startingPage "647" @default.
W2133035264 abstract "Abstract We introduce, in spherical geometry, experiments on electro-hydrodynamic driven Rayleigh–Bénard convection that have been performed for both temperature-independent (‘GeoFlow I’) and temperature-dependent fluid viscosity properties (‘GeoFlow II’) with a measured viscosity contrast up to 1.5. To set up a self-gravitating force field, we use a high-voltage potential between the inner and outer boundaries and a dielectric insulating liquid; the experiments were performed under microgravity conditions on the International Space Station. We further run numerical simulations in three-dimensional spherical geometry to reproduce the results obtained in the ‘GeoFlow’ experiments. We use Wollaston prism shearing interferometry for flow visualization – an optical method producing fringe pattern images. The flow patterns differ between our two experiments. In ‘GeoFlow I’, we see a sheet-like thermal flow. In this case convection patterns have been successfully reproduced by three-dimensional numerical simulations using two different and independently developed codes. In contrast, in ‘GeoFlow II’, we obtain plume-like structures. Interestingly, numerical simulations do not yield this type of solution for the low viscosity contrast realized in the experiment. However, using a viscosity contrast of two orders of magnitude or higher, we can reproduce the patterns obtained in the ‘GeoFlow II’ experiment, from which we conclude that nonlinear effects shift the effective viscosity ratio." @default.
W2133035264 created "2016-06-24" @default.
W2133035264 creator A5011977613 @default.
W2133035264 creator A5015066564 @default.
W2133035264 creator A5051383642 @default.
W2133035264 creator A5071155392 @default.
W2133035264 creator A5078623142 @default.
W2133035264 creator A5087674032 @default.
W2133035264 creator A5091443974 @default.
W2133035264 date "2013-10-29" @default.
W2133035264 modified "2023-10-02" @default.
W2133035264 title "Sheet-like and plume-like thermal flow in a spherical convection experiment performed under microgravity" @default.
W2133035264 cites W1504442666 @default.
W2133035264 cites W1615854610 @default.
W2133035264 cites W1928508230 @default.
W2133035264 cites W1963857331 @default.
W2133035264 cites W1973385443 @default.
W2133035264 cites W1978583513 @default.
W2133035264 cites W1979780835 @default.
W2133035264 cites W1982305896 @default.
W2133035264 cites W1985421550 @default.
W2133035264 cites W1991380607 @default.
W2133035264 cites W1991650472 @default.
W2133035264 cites W1994943303 @default.
W2133035264 cites W1996115939 @default.
W2133035264 cites W1996932027 @default.
W2133035264 cites W2004996212 @default.
W2133035264 cites W2007136375 @default.
W2133035264 cites W2017353420 @default.
W2133035264 cites W2019827002 @default.
W2133035264 cites W2026436006 @default.
W2133035264 cites W2027328687 @default.
W2133035264 cites W2029152300 @default.
W2133035264 cites W2029248941 @default.
W2133035264 cites W2035775255 @default.
W2133035264 cites W2035798381 @default.
W2133035264 cites W2038296452 @default.
W2133035264 cites W2041868589 @default.
W2133035264 cites W2043212200 @default.
W2133035264 cites W2044744178 @default.
W2133035264 cites W2044754098 @default.
W2133035264 cites W2045108849 @default.
W2133035264 cites W2047391298 @default.
W2133035264 cites W2048233594 @default.
W2133035264 cites W2050061707 @default.
W2133035264 cites W2058433764 @default.
W2133035264 cites W2064310473 @default.
W2133035264 cites W2070306792 @default.
W2133035264 cites W2081800572 @default.
W2133035264 cites W2082578622 @default.
W2133035264 cites W2082671623 @default.
W2133035264 cites W2084352787 @default.
W2133035264 cites W2087574283 @default.
W2133035264 cites W2092709237 @default.
W2133035264 cites W2097114968 @default.
W2133035264 cites W2098974766 @default.
W2133035264 cites W2103214093 @default.
W2133035264 cites W2107987635 @default.
W2133035264 cites W2111726120 @default.
W2133035264 cites W2112154035 @default.
W2133035264 cites W2114777835 @default.
W2133035264 cites W2116982068 @default.
W2133035264 cites W2131058718 @default.
W2133035264 cites W2135654371 @default.
W2133035264 cites W2136594983 @default.
W2133035264 cites W2141443872 @default.
W2133035264 cites W2142088610 @default.
W2133035264 cites W2152775103 @default.
W2133035264 cites W2164235627 @default.
W2133035264 cites W2166094202 @default.
W2133035264 cites W2166902312 @default.
W2133035264 cites W3106499573 @default.
W2133035264 cites W4245476166 @default.
W2133035264 doi "https://doi.org/10.1017/jfm.2013.507" @default.
W2133035264 hasPublicationYear "2013" @default.
W2133035264 type Work @default.
W2133035264 sameAs 2133035264 @default.
W2133035264 citedByCount "31" @default.
W2133035264 countsByYear W21330352642014 @default.
W2133035264 countsByYear W21330352642015 @default.
W2133035264 countsByYear W21330352642016 @default.
W2133035264 countsByYear W21330352642017 @default.
W2133035264 countsByYear W21330352642018 @default.
W2133035264 countsByYear W21330352642019 @default.
W2133035264 countsByYear W21330352642020 @default.
W2133035264 countsByYear W21330352642021 @default.
W2133035264 countsByYear W21330352642022 @default.
W2133035264 countsByYear W21330352642023 @default.
W2133035264 crossrefType "journal-article" @default.
W2133035264 hasAuthorship W2133035264A5011977613 @default.
W2133035264 hasAuthorship W2133035264A5015066564 @default.
W2133035264 hasAuthorship W2133035264A5051383642 @default.
W2133035264 hasAuthorship W2133035264A5071155392 @default.
W2133035264 hasAuthorship W2133035264A5078623142 @default.
W2133035264 hasAuthorship W2133035264A5087674032 @default.
W2133035264 hasAuthorship W2133035264A5091443974 @default.
W2133035264 hasBestOaLocation W21330352642 @default.
W2133035264 hasConcept C106836276 @default.