Liutex and third generation of vortex identification : workshop from Aerospace and Aeronautics World Forum 2021 / Yiqian Wang, Yisheng Gao, Chaoqun Liu, editors.
Wang, Yiqian, editor.; Gao, Yisheng (Aeronautic engineer), editor.; Liu, Chaoqun, editor.; Aerospace and Aeronautics World Forum (2021 : Frankfurt, Germany)
2023
TL574.V6
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Title Liutex and third generation of vortex identification : workshop from Aerospace and Aeronautics World Forum 2021 / Yiqian Wang, Yisheng Gao, Chaoqun Liu, editors.
ISBN 9789811989551
9811989559
DOI https://doi.org/10.1007/978-981-19-8955-1
Publication Details Singapore : Springer, 2023.
Language English
Description 1 online resource (xxxii, 403 pages) : illustrations (chiefly color).
Item Number 10.1007/978-981-19-8955-1 doi
Call Number TL574.V6
Dewey Decimal Classification 532/.0595
Summary This proceedings highlights the applications of the newly introduced physical quantity Liutex in hydrodynamics and aerodynamics. Liutex is used to represent the fascinating rotational motion of fluids, i.e., the vortex. Ubiquitously seen in nature and engineering applications, the definition of vortices has been elusive. The Liutex vector provides a unique and systematic description of vortices. The proceedings collects papers presented in the invited workshop "Liutex and Third Generation of Vortex Identification for Engineering Applications" from Aerospace and Aeronautics World Forum 2021. The papers in this book cover both the theoretical aspects of Liutex and many applications in hydrodynamics and aerodynamics. The proceedings is a good reference for researchers in fluid mechanics who are interested in learning about the wide scope of applications of Liutex and using it to develop a new understanding of their research subjects.
Note 7.2.2 Cauchy-Stokes Decomposition
Access Note Access limited to authorized users.
Source of Description Description based on print version record.
Added Author Wang, Yiqian, editor.
Gao, Yisheng (Aeronautic engineer), editor.
Liu, Chaoqun, editor.
Added Meeting Name Aerospace and Aeronautics World Forum (2021 : Frankfurt, Germany)
Series Springer proceedings in physics ; 288. 1867-4941
Available in Other Form Liutex and Third Generation of Vortex Identification
Linked Resources Online Access
Record Appears in Online Resources > Ebooks
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Intro
Preface
Contents
Editors and Contributors
Part I Theoretical Foundation and Applications for Turbulence and Transition Research
1 Liutex and Third Generation of Vortex Definition and Identification
1.1 Introduction
1.2 Three Generations of Vortex Definition and Identification
1.2.1 First Generation of Vortex Identification Methods (Vorticity-Based Methods)
1.2.2 Second Generation of Vortex Identification
1.2.3 Limitations of Existing Vortex Identification Methods

1.2.4 Mathematical Misunderstandings of the First and Second Generation of Vortex Identification Methods
1.2.5 Contaminations of First and Second Generations of Vortex Identification Methods
1.2.6 Liutex
1.3 Future Research Plan
1.3.1 Develop Unique, Accurate, and Threshold-Free Vortex Identification Methods
1.3.2 Characterize Vortex Structure
1.3.3 Liutex Similarity
1.3.4 Correlation Analysis of Pressure Fluctuation (Noise Generation) and Liutex Spectrum by Mathematical Analysis and Experimental Modeling
1.4 Conclusions and Future Work
References

2 Galilean Variance of Streamline in Vortex/Liutex Visualization
2.1 Introduction
2.2 Galilean Invariance
2.3 Galilean Variance of Streamline
2.4 Galilean Invariance of Liutex
2.5 Numerical Example
2.6 Conclusion
References
3 Rules of Tensor and Matrix Operation for Liutex Calculation
3.1 Introduction
3.2 Express Tensor and Its Operation by Matrix
3.3 Matrix Form of Velocity Gradient Tensor
3.4 Some Calculation Examples Using Matrix Expressions
3.5 Conclusion
References
4 Liutex Core Tube for Vortex Visualization and Structure
4.1 Introduction

4.2 Data
4.3 Liutex Core Tube
4.3.1 Constructing the Liutex Core Tube
4.3.2 Liutex Core Tube Versus Iso-Surface
4.4 Conclusion
References
5 Study of Vortex and Vorticity in a Laminar Flow
5.1 Introduction
5.2 Vortex Identification Methods
5.2.1 Vorticity-Based Method
5.2.2 Second-Generation Vortex Identification Method
5.2.3 Third-Generation Vortex Identification Method
5.3 Vortex Versus Vorticity
5.3.1 Vorticity Meter and Long Channel Device
5.3.2 Reynolds Number and Laminar Flow
5.3.3 Modified Shapiro's Experiment
5.3.4 Mathematical Analysis

5.3.5 Vorticity and Liutex
5.4 Conclusion and Discussion
References
6 POD Analysis on Losing Symmetry of Vortex Structure in the Flow Transition by Liutex Method
6.1 Introduction
6.2 Numerical Setup
6.3 Proper Orthogonal Decomposition (POD)
6.4 POD Analysis Inflow Transition by Modified Liutex Omega Method
6.5 POD Analysis on Losing Symmetry of Vortex Structure
6.6 Conclusion
References
7 The Liutex Shear Interaction in Boundary Layer Transition
7.1 Introduction
7.2 Vortex Identification Method
7.2.1 Vortex, Vorticity, Velocity Gradient Tensor

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