Purpose – The purpose of this paper is to discuss some fundamental aspects regarding the anomalies in the passive scalar field advected by forced homogenous and isotropic turbulence, by inspection of the analytical properties of the governing equations and with the aid of direct numerical simulation (DNS) data. Design/methodology/approach – Results from a pseudo-spectral DNS of a unitary-Schmidt- number passive scalar advected by a low Reynolds number flow field, Rel ¼ 50 and 70 (based on the Taylor microscale l) allow for a preliminary assessment of the developed numerical model. Findings – Manipulation of the governing equations for the scalar field (which are monotonic) reveals that the unboundedness of the scalar gradient magnitude is...
Direct numerical simulations of decaying isotropic turbulence with a passive scalar at different Sch...
A numerical study of fundamental aspects of turbulent mixing has been performed,with emphasis on the...
We study the statistics of passive scalars at Pr = 1, for turbulent flow within a smooth straight pi...
Purpose – The purpose of this paper is to discuss some fundamental aspects regarding the anomalies i...
We discuss how the spatial intermittency of energy dissipation in 3D fully developed turbulence affe...
Small scale statistics of a passive scalar convected by turbulence under the uniform mean scalar gra...
In this thesis the turbulent mixing of a passive scalar and its Reynolds number dependence is studie...
Mixing of passive scalars can be considered as a wave propagation process, which is induced by the c...
In a recent direct numerical simulation (DNS) study [P. K. Yeung and K. R. Sreenivasan, "Spectrum of...
The fractal dimension δg(1) of turbulent passive scalar signals is calculated from the fluid dynamic...
The physical mechanisms underlying the dynamics of the dissipation of passive scalar fluctuations wi...
The fundamental issue of study of passive scalar turbulence is to clarify the statistical nature of ...
We consider the generation of passive scalar fluctuations by decaying isotropic turbulence in the pr...
The physical mechanisms underlying the dynamics of the dissipation of passive scalar fluctuations wi...
An efficient approach for extracting three-dimensional local averages in spherical subdomains is pro...
Direct numerical simulations of decaying isotropic turbulence with a passive scalar at different Sch...
A numerical study of fundamental aspects of turbulent mixing has been performed,with emphasis on the...
We study the statistics of passive scalars at Pr = 1, for turbulent flow within a smooth straight pi...
Purpose – The purpose of this paper is to discuss some fundamental aspects regarding the anomalies i...
We discuss how the spatial intermittency of energy dissipation in 3D fully developed turbulence affe...
Small scale statistics of a passive scalar convected by turbulence under the uniform mean scalar gra...
In this thesis the turbulent mixing of a passive scalar and its Reynolds number dependence is studie...
Mixing of passive scalars can be considered as a wave propagation process, which is induced by the c...
In a recent direct numerical simulation (DNS) study [P. K. Yeung and K. R. Sreenivasan, "Spectrum of...
The fractal dimension δg(1) of turbulent passive scalar signals is calculated from the fluid dynamic...
The physical mechanisms underlying the dynamics of the dissipation of passive scalar fluctuations wi...
The fundamental issue of study of passive scalar turbulence is to clarify the statistical nature of ...
We consider the generation of passive scalar fluctuations by decaying isotropic turbulence in the pr...
The physical mechanisms underlying the dynamics of the dissipation of passive scalar fluctuations wi...
An efficient approach for extracting three-dimensional local averages in spherical subdomains is pro...
Direct numerical simulations of decaying isotropic turbulence with a passive scalar at different Sch...
A numerical study of fundamental aspects of turbulent mixing has been performed,with emphasis on the...
We study the statistics of passive scalars at Pr = 1, for turbulent flow within a smooth straight pi...