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Behaviour of Energetic Coherent Structures in Turbulent Pipe Flow at High Reynolds Numbers

Impresion
EUR 49,90

E-Book
EUR 35,50

Behaviour of Energetic Coherent Structures in Turbulent Pipe Flow at High Reynolds Numbers (Tienda española)

Zeinab Hallol (Autor)

Previo

Lectura de prueba, PDF (1,4 MB)
Indice, PDF (50 KB)

ISBN-13 (Impresion) 9783736975019
ISBN-13 (E-Book) 9783736965010
Idioma Inglés
Numero de paginas 146
Laminacion de la cubierta mate
Edicion 1.
Lugar de publicacion Göttingen
Lugar de la disertacion Cottbus-Senftenberg
Fecha de publicacion 26.10.2021
Clasificacion simple Tesis doctoral
Area Ciencias Ingeniería
Ingeniería
Técnica de regulación y medida
Mecánica de medida
Ingeniería aeroespacial
Palabras claves Turbulent pipe flow, Fully developed turbulent flow, Conical flows, Internal flows, wall-bounded flows, Coherent structures, Turbulent structures, Boundary layer, Very large scale motions, Large scale motions, Total kinetic energy, Reynolds stress, Wall-normal Reynolds stress, Reynolds shear stress, Temporal-spatial analysis, One-dimensional spectral analysis, Two-dimensional spectral analysis, Pre-multiplied spectral analysis, Particle image velocimetry, Hotwire anemometry, High Reynolds numbers, CoLaPipe, Proper orthogonal decomposition, Quadrant analysis, In-situ calibration, Ex-situ calibration, Seeding particles, Turbulente Rohrströmung, voll entwickelte turbulente Strömung, konische Strömungen, interne Strömungen, wandbegrenzte Strömungen, kohärente Strukturen, turbulente Strukturen, Grenzschicht, sehr großräumige Bewegungen, großräumige Bewegungen, kinetische Gesamtenergie, Reynolds-Spannung, wandnormale Reynolds-Spannung , Reynolds-Scherspannung, Zeitlich-räumliche Analyse, Eindimensionale Spektralanalyse, Zweidimensionale Spektralanalyse, Vormultiplizierte Spektralanalyse, Partikelbild-Geschwindigkeitsmessung, Heißdraht-Anemometrie, Hohe Reynolds-Zahlen, CoLaPipe, Korrekte orthogonale Zerlegung, Quadrantenanalyse, In- situ-Kalibrierung, ex-situ-Kalibrierung, Aussaat von Partikeln, Hitzdrahtsonde, Hot-wire probe, Hitzedrahtanemometrie, Hot-wire anemometry, Universelle Gaskonstante, universal gas constant, Vorlauftemperatur, konvektive Zeitskala, convective time scale, Reibungsgeschwindigkeit, friction velocity, Schüttgutgeschwindigkeit, bulk velocity, Scherspannung, Shear stress, Kinematische Viskosität, kinematic viscosity, Dynamische Viskosität, dynamic viscosity, Aerodynamik, Strömungsmechanik, Fluid Mechanics, Polynomielle Kurvenanpassung, Polynomial Curve Fitting, Potenzgesetz-Kurvenanpassung, Power Law Curve Fitting, PIV-Messungen
URL para pagina web externa https://www.b-tu.de/fg-aerodynamik-stroemungslehre/team/wissenschaftliche-mitarbeiter
Descripcion

This thesis presents a new applied temporal-spatial analysis using time-resolved PIV measurements to investigate coherent structures’ co-exist towards pipe axis in fully developed turbulent pipe flow at high Reynolds numbers. The new method facilitates the detection of coherent structures directly through the new streamwise fluctuating velocity field plots. The detection was done without involving the common usable Taylor hypothesis compared to the recognised spectral analysis. For streamwise (u) and wall-normal (v) velocity components, this methodology identifies the shear layer signature created by the encounters of bursting events caused due to the intensive presence of coherent structures and their interaction in the near-wall region.
Nevertheless, spectra and co-spectra, as well as proper orthogonal decomposition (POD) analyses, are also applied in this study to identify the contribution of both large (LSMs) and very-large-scale motions (VLSMs) to turbulent kinetic energy and Reynolds shear stress. The spectral analysis utilises high-speed PIV measurements to revisit other earlier studies done via a single hot-wire anemometer. In the present study, hot-wire measurements were conducted at a very high Reynolds number range exceeding one million equivalent to Re_tau= 19 000 with high spatial resolution. The obtained results indicate the dominance of VLSMs in the logarithmic and outer layers. However, the outputs are deduced from their higher contribution to total energy production in streamwise and wall-normal directions at high Reynolds numbers. Furthermore, new observation explored from the temporal-spatial plots stated that VLSMs could be created from the alignment of LSMs.