Journal article
Propagating helical waves as a building block of round turbulent jets
RI Mullyadzhanov, RD Sandberg, SS Abdurakipov, WK George, K Hanjalić
Physical Review Fluids | AMER PHYSICAL SOC | Published : 2018
Abstract
Turbulent jets are known to support large-scale vortical wave packets traveling downstream. We show that a propagating helical wave represents a common form of the "optimal" eigenfunction tracking these structures from the near to the far field of a round jet issuing from a pipe. Two first mirror-symmetric modes containing around 5% of the total turbulent kinetic energy capture all significant large-scale events and accurately replicate the full shear-layer dynamics of the azimuthal wave number m=1. A family of the most energy-containing traveling waves represents low wave numbers and is described in terms of "empirical" dispersion laws.
Grants
Awarded by Russian Science Foundation
Funding Acknowledgements
This work is funded by the Russian Science Foundation Grant No. 14-19-01685. The resources for postprocessing are provided by Novosibirsk State University supercomputer center, Siberian Supercomputer Center SB RAS (Novosibirsk) and Joint Supercomputer Center RAS (Moscow). The authors are grateful to the anonymous referees for their valuable comments.