Turbulent Wall Bounded Flow II
ORAL · T40 · ID: 2666975
Presentations
-
On precisely locating the inertial sublayer in turbulent channel flow
ORAL
–
Publication: On precisely locating the inertial sublayer in turbulent channel flow, in preparation
Presenters
-
Joseph C Klewicki
University of Melbourne
Authors
-
Joseph C Klewicki
University of Melbourne
-
Jimmy Philip
University of Melbourne
-
-
Abstract Withdrawn
ORAL Withdrawn
–
-
Exploring Surface Pressure Fluctuations in DNS of Turbulent Channel Flow
ORAL
–
Publication: No papers.
Presenters
-
Pedro Ivo Almeida
Florida Atlantic University
Authors
-
Pedro Ivo Almeida
Florida Atlantic University
-
Mukesh Sharma
Florida Atlantic University
-
Siddhartha Verma
Florida Atlantic University
-
-
Causal interactions between inner and outer layer flow motions in wall-bounded turbulence
ORAL
–
Publication: Decomposing causality into its synergistic, unique, and redundant components (https://doi.org/10.48550/arXiv.2405.12411)
Presenters
-
Alvaro Martinez-Sanchez
Massachusetts Institute of Technology
Authors
-
Alvaro Martinez-Sanchez
Massachusetts Institute of Technology
-
Adrian Lozano-Duran
Caltech, Caltech/MIT, Caltech / MIT, Massachusetts Institute of Technology
-
-
ABSTRACT WITHDRAWN
COFFEE_KLATCH
–
-
Understanding the scaling exponents in transitional pipe flows
ORAL
–
Presenters
-
VISHNU RAVINDRAN
Okinawa Institute of Science and Technology, Japan
Authors
-
VISHNU RAVINDRAN
Okinawa Institute of Science and Technology, Japan
-
-
Theoretical analysis and stochastic modeling of turbulent heat transfer in annular pipe flows
ORAL
–
Publication: Klein, M., Tsai, P. Y., & Schmidt, H. (2022, November). Stochastic Modeling and Large-Eddy Simulation of Heated Concentric Coaxial Pipes. In STAB/DGLR Symposium (pp. 435-444). Cham: Springer Nature Switzerland.
Tsai, P. Y., Schmidt, H., & Klein, M. (2023). Modeling simultaneous momentum and passive scalar transfer in turbulent annular Poiseuille flow. PAMM, 22(1), e202200272.
Tsai, P. Y., Schmidt, H., & Klein, M. (2023). Investigating Reynolds number effects in turbulent concentric coaxial pipe flow using stochastic one‐dimensional turbulence modeling. PAMM, 23(4), e202300167.
Tsai, P. Y., Schmidt, H., & Klein, M. (2024). Stochastic modeling and theoretical analysis of weakly heated concentric coaxial pipe flows at low Prandtl number. Submitted for publication in Proc. Appl. Math. Mech., Section 10.
Tsai, P. Y., Schmidt, H., & Klein, M.: Enhanced heat transfer prediction in annular pipe flows with low Prandtl numbers using stochastic One-Dimensional Turbulence (ODT), in preparationPresenters
-
Pei-Yun Tsai
BTU Cottbus-Senftenberg
Authors
-
Pei-Yun Tsai
BTU Cottbus-Senftenberg
-
Heiko Schmidt
BTU Cottbus-Senftenberg
-
Marten Klein
BTU Cottbus-Senftenberg
-
-
Self-similar motions for the logarithmic variation of spanwise turbulence intensity in turbulent pipe flow
ORAL
–
Presenters
-
Jeonghoon Yoon
Pusan National University
Authors
-
Jeonghoon Yoon
Pusan National University
-
Jinyul Hwang
Pusan National University
-
-
Uniform momentum zones for the logarithmic layer in turbulent pipe flow
ORAL
–
Presenters
-
Dongmin Kim
Pusan National University
Authors
-
Dongmin Kim
Pusan National University
-
Jinyul Hwang
Pusan National University
-