Oberlack, Martin
Progress in Turbulence II
Part I. Fundamentals
1. What Rayleigh-Bénard, Taylor-Couette and Pipe Flows have in Common
Bruno Eckhardt, Siegfried Grossmann, Detlef Lohse
2. Small-Scale Statistics in High-Resolution Direct Numerical Simulation of Turbulence
Yukio Kaneda, Takashi Ishihara
3. Numerical Investigation of Turbulent Jet Under Random Waves
Y. P. Chen, C. W. Li
4. Scale-by-Scale Assessments of the Approach to Isotropy
Peter E. Hamlington, Jamison L. Szwalek, Werner J. A. Dahm
5. On the Decay of Isotropic Turbulence
P. A. Davidson, Y. Kaneda, T. Ishida
6. Oscillatory Relaxation Towards Turbulent States
Bruno Eckhardt, Andreas Dietrich, Jörg Schumacher, Tobias M. Schneider
7. An Exact Solution for the Forced Burgers Equation
Stephan Eule, Rudolf Friedrich
8. Consistent Invariant Modelling of Axially Rotating Pipe Flow
S. Guenther, M. Oberlack
9. Small-Scale Anisotropy in MHD Turbulence Under Strong Uniform Magnetic Field
Takaki Ishida, Yukio Kaneda
10. Scaling in an Ensemble of Stochastic Forced Point Vortices
Oliver Kamps, Rudolf Friedrich
11. Multiplier Statistics Explained by Stochastic Cascade Processes
M. Siefert, J. Peinke
12. DNS and Scaling Laws of a Turbulent Channel Flow with Streamwise Rotation
Tanja Weller, Martin Oberlack
Part II. Experiments
13. Characterization of a Turbulent Vortex Using Phase Averaged PIV Data
Yannis Cuypers, Agnes Maurel, Philippe Petitjeans
14. Experimental Detection of the New Phenomenon of Turbulent Thermal Diffusion
A. Eidelman, T. Elperin, N. Kleeorin, A. Markovich, I. Rogachevskii
15. Anemometry in Snow Particle Flows
M. Hölling, S. Barth, J. Peinke, J.-D. Rüedi
16. Numerical and Experimental Investigations of the Dynamics and Structure of the Recirculation Zone in a Coaxial Jet Mixer
N. Kornev, S. Jahnke, I. Tkatchenko, V. Zhdanov, E. Hassel
17. On Anisotropy of Turbulent Flows in Regions of “Negative Eddy Viscosity”
A. Liberzon, B. Lüthi, M. Guala, W. Kinzelbach, A. Tsinober
18. Experimental Analysis on the Transition Process of Internal Gravity Waves in a Strongly Stably-Stratified Mixing Layer
Hideharu Makita, Katsuhisa Ohba, Nobumasa Sekishita
19. The Correlation Between Velocity and Acceleration in Turbulence
Jakob Mann, Søren Ott, Jacob Berg, Beat Lüthi
20. PIV Measurement of Coherent Structures and Turbulence Created by an Oscillating Flow at the End of a Thermoacoustic Stack
Xiaoan Mao, David Marx, Artur J. Jaworski
21. Statistics of the Temperature Fluctuations as a Passive Scalar in a Freejet Experiment
Marco Munzel, Joachim Peinke, Achim Kittel
Part III. Coherent Structure
22. Coherent Structures Identification in 2D Turbulence
Ch.-H. Bruneau, P. Fischer, H. Kellay
23. Multi-resolution Analysis of the Large-scale Coherent Structure in a Turbulent Separation Bubble Affected by Unsteady Wake
Sejong Chun, Ying Zheng Liu, Hyung Jin Sung
24. Effect of Spanwise System Rotation on Longitudinal Vortical Structure of Homogeneous Shear Flow
Oaki Iida, Yasutaka Nagano
25. Generation of Large-scale Vorticity in Sheared Homogeneous and Rotating Inhomogeneous Turbulence
T. Elperin, I. Golubev, N. Kleeorin, I. Rogachevskii
26. Mean Modal Analysis of the Coherent Structures in a Two-dimensional Vortex Merger
Fereidoun Sabetghadam, Shervin Sharafatmandjoor
27. Low-Frequency Coherent Structures in Turbulent Flows
Rüdiger Schwarze, Frank Obermeier
Part IV. Turbulent Boundary Layers
28. Large-eddy Simulation of Accelerating Boundary Layers
G. Prisco, A. Keating, U. Piomelli, E. Balaras
29. Generation of Turbulent Inlet Conditions for Velocity/Thermal Boundary Layer Simulations
Guillermo Araya, Elaine Bohr, Kenneth Jansen, Luciano Castillo
30. Experimental Analysis of a Turbulent Boundary Layer at High Reynolds Numbers
G. Aloisio, A. Dolcini, F. Felice, G. P. Romano
31. Hybrid RANS/LES of Neutral Atmospheric Boundary Layer: Simple Terrain
A. Hansen, J. Mann, J. Johansen, N. N. Sørensen
32. Evidence on Non-Universality of Kármán Constant
Kapil A. Chauhan, Hassan M. Nagib, Peter A. Monkewitz
33. Turbulent Marginal Separation: A Novel Triple-Deck Problem for Turbulent Flows
B Scheichl, A Kluwick
34. Symmetry-preserving Regularization Modeling of Turbulent Channel Flow
Roel Verstappen
Part V. Convection
35. Numerical Experiments of Turbulent Thermal Convection at High Rayleigh Numbers
K. Koal, G. Amati, F. Massaioli, K. R. Sreenivasan, R. Verzicco
36. Homogeneous Rayleigh-Bénard Convection
E. Calzavarini, D. Lohse, F. Toschi
37. A RANS Model for the Pressure-velocity Fluctuation Correlation
L. Chandra, G. Grötzbach
38. Temperature Measurements in a Rectangular Rayleigh-Bénard Cell
A. Maystrenko, C. Resagk, A. Thess
39. Inertial Convertion in a Vertical Channel
M. Gibert, H. Pabiou, F. Chillà, B. Castaing
40. Applying the Leray-? Model to Rayleigh-Bénard Convection
M. Reeuwijk, H. J. J. Jonker, K. Hanjalié
41. Analysis of Thermal Dissipation Rates Based on Direct Numerical and Large–Eddy Simulations of Turbulent Rayleigh–B’enard Convection
Olga Shishkina, Claus Wagner
Part VI. Scalar Mixing and Particles
42. Inertial Particles in Turbulence
L. Biferale, J. Bec, G. Boffetta, A. Celani, M. Cencini, A. Lanotte, S. Musacchio, F. Toschi
43. Turbulent Pair Dispersion: A PTV Experiment
Jacob Berg, Beat Lüthi, Jakob Mann, Søren Ott
44. Application of a Two-point Closure to the Dispersion of Particles in Isotropic and Sheared Turbulence
Wouter Bos, Jean-Pierre Bertoglio
45. Clustering of Inertial Particles
L. Chen, S. Goto, J. C. Vassilicos
46. Self Similar Two Particle Separation Model
Beat Lüthi, Jacob Berg, Søren Ott, Jakob Mann
47. Coarse-grained Scalar Transport: Closures and Large-eddy Simulations
A. Celani, M. Martins Afonso, A. Mazzino
48. Statistics and Geometry in High-Schmidt Number Scalar Mixing
Jörg Schumacher, Dan Kushnir, Achi Brandt, Katepalli R. Sreenivasan, Herwig Zilken
Part VII. Polymer and Scalars
49. Scale by Scale Budget in Viscoelastic Wall Turbulence
E. Angelis, N. Marati, C. M. Casciola, R. Piva
50. Alignment Statistics of a Passive Scalar Gradient
in Nonstationary Flow Topology
A. Garcia, M. Gonzalez, L. Danaila, P. Paranthoön
51. An Improved Model for the Turbulent Atmospheric Boundary Layer Including Urban Canopy
A. F. Kurbatskiy, A. V. Lonchakov, L. I. Kurbatskaya
52. LES of Turbulent Low Mach Number Shear Layers with Active Scalars Using Explicit Filtering
Inga Mahle, Juan Pedro Mellado, Jörn Sesterhenn, Rainer Friedrich
53. Statistical Closures for Homogeneous Shear Flow Turbulence of Dilute Polymer Solutions
D. Vincenzi, S. Jin, T. Vaithianathan, L. R. Collins, E. Bodenschatz
Part VIII. Large Eddy Simulation
54. Towards Wall Models for LES of Separated Flows
Michael Breuer, Boris Kniazev, Markus Abel
55. Numerical Study of Turbulent Flow in a Triangular Duct with Internal Ribbed Surfaces
D. D. Luo, C. W. Leung, T. L. Chan, W. O. Wong
56. Multi-Cycle Simulations of In-Cylinder Flows on Unstructured
Grids using a Hybrid VLES Model
F. Freikamp, J. Ewald, N. Peters
57. Investigation of Lattice Boltzmann Methods for LES
Rainhill K. Freitas, Wolfgang Schröder, Matthias Meinke
58. Conditional Averaging of the Fully Developed Stationary Ribbed Duct Flow Using Q Criteria
Máté Márton Lohász, Patrick Rambaud, Carlo Benocci1
59. Prediction of Flow and Heat Transfer in a Czochralski Crucible using LES with Interface Tracking
A. Raufeisen, T. Botsch, V. Kumar, M. Breuer, F. Durst
60. Numerical Study of Turbulent Flow Around an Obstacle at the Wall of a Rectangular Duct
A. Teruzzi, S. Salon, F. Ballio, V. Armenio
61. Energy Content of Large-scale Turbulence in Wide Open Channel Flows
Wim S. J. Uijttewaal, Wim Balen, Bram C. Prooijen
62. Subgrid Modeling in Large-eddy Simulation of Complex Flows
A. W. Vreman
Nyckelord: Engineering, Engineering Fluid Dynamics, Vibration, Dynamical Systems, Control, Physics beyond the Standard Model, Fluids, Dynamical Systems and Ergodic Theory, Partial Differential Equations
- Författare
- Oberlack, Martin
- Khujadze, George
- Günther, Silke
- Weller, Tanja
- Frewer, Michael
- Peinke, Joachim
- Barth, Stephan
- Utgivare
- Springer
- Utgivningsår
- 2007
- Språk
- en
- Utgåva
- 1
- Serie
- Springer Proceedings in Physics
- Sidantal
- 18 sidor
- Kategori
- Teknologi, energi, trafik
- Format
- E-bok
- eISBN (PDF)
- 9783540326038