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Název:
Study of the Dissipation in Spiraling Vortical Structures
Překlad názvu: Study of the Dissipation in Spiraling Vortical Structures
Autoři: Štefan, David ; Drábková, Sylva (oponent) ; Koutník,, Jiří (oponent) ; Skoták, Aleš (oponent) ; Rudolf, Pavel (vedoucí práce)
Typ dokumentu: Disertační práce
Rok: 2015
Jazyk: eng
Nakladatel: Vysoké učení technické v Brně. Fakulta strojního inženýrství
Abstrakt: This work deals with study of swirling flows where the spiral vortical structure appears. The main relation is to flow seen in the draft tube cone of hydraulic turbines operated out of the design point (i.e. best efficiency point). In this cases large coherent vortex structure (vortex rope) appears and consequently high pressure pulsations are propagated to the whole machine system leading to possible restriction of turbine operation. This flow features are consequence of flow instability called vortex breakdown in case of Francis turbine operated at part load (flow rate lower than optimal one). The present study is carried out using simplified device of swirl generator in order to access similar flow conditions as can be found in real hydraulic turbines. Both the dynamic and dissipation effect of spiral vortex breakdown are investigated. The first part of thesis deals with spiral form of vortex breakdown. The experimentally measured velocity profiles (LDA) and wall static pressures are correlated with numerical simulations carried out using open-source CFD package OpenFOAM 2.2.2. The high speed camera recording of cavitating vortex core is used to obtain image ensemble for further post-processing. The dissipation effect of spiral vortex structure is in detail discussed based on computed flow fields. The second part of thesis is dedicated to the application of POD decomposition to the study of spatio-temporal features of spiral vortex dynamics. Firstly the POD is applied to the both the experimentally obtained image ensemble of cavitating vortex and numerically computed static pressure fields. Secondly the comprehensive analysis of spiral vortex mitigation effect by the axial water jet is analyzed. The collaborative study employing the swirl generator apparatus designed by the researchers from Politehnica University of Timisoara in Romania is performed and changes in spatio-temporal vortex dynamic are studied. In this study the numerical data (in a form of three-dimensional pressure and velocity fields) are obtained using commercial CFD software ANSYS Fluent R14.
Klíčová slova: cavitation; coherent structure; diffuser; dissipation; draft tube; LDA.; OpenFOAM; POD; pressure pulsations; spiral vortex; swirling flow; vortex breakdown; vortex rope; cavitation; coherent structure; diffuser; dissipation; draft tube; LDA.; OpenFOAM; POD; pressure pulsations; spiral vortex; swirling flow; vortex breakdown; vortex rope
Instituce: Vysoké učení technické v Brně (web)
Informace o dostupnosti dokumentu: Plný text je dostupný v Digitální knihovně VUT.
Původní záznam: http://hdl.handle.net/11012/51597
Trvalý odkaz NUŠL: http://www.nusl.cz/ntk/nusl-611640
Záznam je zařazen do těchto sbírek:
Školství > Veřejné vysoké školy > Vysoké učení technické v Brně
Vysokoškolské kvalifikační práce > Disertační práce
Překlad názvu: Study of the Dissipation in Spiraling Vortical Structures
Autoři: Štefan, David ; Drábková, Sylva (oponent) ; Koutník,, Jiří (oponent) ; Skoták, Aleš (oponent) ; Rudolf, Pavel (vedoucí práce)
Typ dokumentu: Disertační práce
Rok: 2015
Jazyk: eng
Nakladatel: Vysoké učení technické v Brně. Fakulta strojního inženýrství
Abstrakt: This work deals with study of swirling flows where the spiral vortical structure appears. The main relation is to flow seen in the draft tube cone of hydraulic turbines operated out of the design point (i.e. best efficiency point). In this cases large coherent vortex structure (vortex rope) appears and consequently high pressure pulsations are propagated to the whole machine system leading to possible restriction of turbine operation. This flow features are consequence of flow instability called vortex breakdown in case of Francis turbine operated at part load (flow rate lower than optimal one). The present study is carried out using simplified device of swirl generator in order to access similar flow conditions as can be found in real hydraulic turbines. Both the dynamic and dissipation effect of spiral vortex breakdown are investigated. The first part of thesis deals with spiral form of vortex breakdown. The experimentally measured velocity profiles (LDA) and wall static pressures are correlated with numerical simulations carried out using open-source CFD package OpenFOAM 2.2.2. The high speed camera recording of cavitating vortex core is used to obtain image ensemble for further post-processing. The dissipation effect of spiral vortex structure is in detail discussed based on computed flow fields. The second part of thesis is dedicated to the application of POD decomposition to the study of spatio-temporal features of spiral vortex dynamics. Firstly the POD is applied to the both the experimentally obtained image ensemble of cavitating vortex and numerically computed static pressure fields. Secondly the comprehensive analysis of spiral vortex mitigation effect by the axial water jet is analyzed. The collaborative study employing the swirl generator apparatus designed by the researchers from Politehnica University of Timisoara in Romania is performed and changes in spatio-temporal vortex dynamic are studied. In this study the numerical data (in a form of three-dimensional pressure and velocity fields) are obtained using commercial CFD software ANSYS Fluent R14.
Klíčová slova: cavitation; coherent structure; diffuser; dissipation; draft tube; LDA.; OpenFOAM; POD; pressure pulsations; spiral vortex; swirling flow; vortex breakdown; vortex rope; cavitation; coherent structure; diffuser; dissipation; draft tube; LDA.; OpenFOAM; POD; pressure pulsations; spiral vortex; swirling flow; vortex breakdown; vortex rope
Instituce: Vysoké učení technické v Brně (web)
Informace o dostupnosti dokumentu: Plný text je dostupný v Digitální knihovně VUT.
Původní záznam: http://hdl.handle.net/11012/51597
Trvalý odkaz NUŠL: http://www.nusl.cz/ntk/nusl-611640
Záznam je zařazen do těchto sbírek:
Školství > Veřejné vysoké školy > Vysoké učení technické v Brně
Vysokoškolské kvalifikační práce > Disertační práce
Záznam vytvořen dne 2024-04-02, naposledy upraven 2024-04-03.