Prediction Of Turbulent Flows
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Turbulent Flow
Author: Peter S. Bernard
language: en
Publisher: John Wiley & Sons
Release Date: 2002-11-14
Provides unique coverage of the prediction and experimentationnecessary for making predictions. Covers computational fluid dynamics and its relationship todirect numerical simulation used throughout the industry. Covers vortex methods developed to calculate and evaluateturbulent flows. Includes chapters on the state-of-the-art applications ofresearch such as control of turbulence.
Turbulent Flow
Author: Peter S. Bernard
language: en
Publisher: John Wiley & Sons
Release Date: 2002-08-19
Diese Einführung in die Theorie der turbulenten Strömungen wendet sich in erster Linie an fortgeschrittene Studenten. Ingenieure in der Praxis werden den Band aber auch gern als Nachschlagewerk benutzen. Physikalische Grundlagen, Analysenverfahren, Simulationen, Messmethoden und - nicht zuletzt - einschlägige Vorhersagealgorithmen werden so erklärt, dass der Leser lernt, selbst geeignete Methoden für den praktischen Einsatz auszuwählen. Unter anderem finden Sie Ausführungen zu neuen Wirbelmethoden, mit denen man turbulente Strömungen berechnen und auswerten kann sowie zur Steuerung der Turbulenz in verschiedenen realen Situationen.
Prediction of Turbulent Flows
Author: Geoff Hewitt
language: en
Publisher: Cambridge University Press
Release Date: 2005-06-08
The prediction of turbulent flows is of paramount importance in the development of complex engineering systems involving flow, heat and mass transfer, and chemical reactions. Arising from a programme held at the Isaac Newton Institute in Cambridge, this volume reviews the current situation regarding the prediction of such flows through the use of modern computational fluid dynamics techniques, and attempts to address the inherent problem of modelling turbulence. In particular, the current physical understanding of such flows is summarised and the resulting implications for simulation discussed. The volume continues by surveying current approximation methods whilst discussing their applicability to industrial problems. This major work concludes by providing a specific set of guidelines for selecting the most appropriate model for a given problem. Unique in its breadth and critical approach, this book will be of immense value to experienced practitioners and researchers, continuing the UK's strong tradition in fluid dynamics.