Analysis of scalar dissipation in terms of vorticity geometry in isotropic turbulence
From MaRDI portal
Publication:2853921
DOI10.1080/14685248.2012.718440zbMath1273.76122arXiv1612.00287OpenAlexW2952590131MaRDI QIDQ2853921
Publication date: 17 October 2013
Published in: Journal of Turbulence (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1612.00287
Related Items (1)
Cites Work
- Some aspects of scalar dissipation
- Is concentrated vorticity that important?
- PDF model calculations of compressible turbulent flows using smoothed particle hydrodynamics
- Stretching and alignment in chaotic and turbulent flows
- Dynamics of scalar dissipation in isotropic turbulence: a numerical and modelling study
- Small-scale intermittency and local anisotropy in turbulent mixing with rotation
- Small-scale dynamo action in rotating compressible convection
- Correlation between small-scale velocity and scalar fluctuations in a turbulent channel flow
- Structure and dynamics of homogeneous turbulence: models and simulations
- Does the tracer gradient vector align with the strain eigenvectors in 2D turbulence?
- Axial motion and scalar transport in stretched spiral vortices
- Higher-order derivative correlations and the alignment of small-scale structures in isotropic numerical turbulence
- Experimental study of the fine-scale structure of conserved scalar mixing in turbulent shear flows. Part 2. Sc≈1
- The structure and dynamics of vorticity and rate of strain in incompressible homogeneous turbulence
- Comparing the two-dimensional cascades of vorticity and a passive scalar
- Passive Scalars in Turbulent Flows
- Lagrangian measurement of vorticity dynamics in turbulent flow
- A study of properties of vortex stretching and enstrophy generation in numerical and laboratory turbulence
- Micro-structure and Lagrangian statistics of the scalar field with a mean gradient in isotropic turbulence
- Turbulent mixing of a passive scalar
- A numerical study of the mixing of a passive scalar in three dimensions in the presence of a mean gradient
- Modeling the pressure Hessian and viscous Laplacian in turbulence: Comparisons with direct numerical simulation and implications on velocity gradient dynamics
- Kinematic properties of passive scalar gradient predicted by a stochastic Lagrangian model
- On the fine-scale structure of vector fields convected by a turbulent fluid
- Lagrangian Dynamics and Models of the Velocity Gradient Tensor in Turbulent Flows
This page was built for publication: Analysis of scalar dissipation in terms of vorticity geometry in isotropic turbulence
