Statistical properties of forced two-dimensional turbulence generated in two different flow domains are investigated by numerical simulations. The considered geometries are the square domain and the periodic channel domain, both bounded by lateral no-slip sidewalls. The focus is on the direct enstrophy cascade range and how the statistical properties change in the presence of no-slip boundaries. The scaling exponents of the velocity and the vorticity structure functions are compared to the classical Kraichnan-Batchelor-Leith (KBL) theory, which assumes isotropy, homogeneity, and self-similarity for turbulence scales between the forcing and dissipation scale. Our investigation reveals that in the interior of the flow domain, turbulence can b...
In contrast to its counterpart in the 3D world, turbulence in 2D is characterized by an inverse ener...
We present a systematic comparison of conditional structure functions in nine turbulent flows. The f...
This is the final report of a three-year, Laboratory-Directed Research and Development (LDRD) projec...
Statistical properties of forced two-dimensional turbulence generated in two different flow domains ...
Vorticity statistics play an important role in the determination of small-scale dynamics in forced t...
This paper reports on a numerical study of forced two-dimensional turbulence in a periodic channel w...
We consider the enstrophy cascade in forced two-dimensional turbulence with a linear drag force. In ...
Two codes have been developed and implemented for use on massively parallelsuper computers to simula...
We examine the validity of the scaling laws derived by Kraichnan (1967) for forced two-dimensional t...
We survey the role of coherent vortices in two-dimensional turbulence, including formation mechanism...
The nature of intermittency in shear dominated flows changes with respect to homogeneous and Isotrop...
The effect of small-scale forcing on large-scale structures in β-plane two-dimensional (2D) turbulen...
Turbulent shear flows, such as those occurring in the wall region of turbulent boundary layers, show...
A numerical analysis of the interaction between decaying shear free turbulence and quiescent fluid i...
We investigate numerically the validity of Kraichnan-Batchelor scalings for forced 2D turbulence. We...
In contrast to its counterpart in the 3D world, turbulence in 2D is characterized by an inverse ener...
We present a systematic comparison of conditional structure functions in nine turbulent flows. The f...
This is the final report of a three-year, Laboratory-Directed Research and Development (LDRD) projec...
Statistical properties of forced two-dimensional turbulence generated in two different flow domains ...
Vorticity statistics play an important role in the determination of small-scale dynamics in forced t...
This paper reports on a numerical study of forced two-dimensional turbulence in a periodic channel w...
We consider the enstrophy cascade in forced two-dimensional turbulence with a linear drag force. In ...
Two codes have been developed and implemented for use on massively parallelsuper computers to simula...
We examine the validity of the scaling laws derived by Kraichnan (1967) for forced two-dimensional t...
We survey the role of coherent vortices in two-dimensional turbulence, including formation mechanism...
The nature of intermittency in shear dominated flows changes with respect to homogeneous and Isotrop...
The effect of small-scale forcing on large-scale structures in β-plane two-dimensional (2D) turbulen...
Turbulent shear flows, such as those occurring in the wall region of turbulent boundary layers, show...
A numerical analysis of the interaction between decaying shear free turbulence and quiescent fluid i...
We investigate numerically the validity of Kraichnan-Batchelor scalings for forced 2D turbulence. We...
In contrast to its counterpart in the 3D world, turbulence in 2D is characterized by an inverse ener...
We present a systematic comparison of conditional structure functions in nine turbulent flows. The f...
This is the final report of a three-year, Laboratory-Directed Research and Development (LDRD) projec...