Velocity field statistics in homogeneous steady turbulence obtained using a high-resolution direct numerical simulation

Velocity field statistics in the inertial to dissipation range of three-dimensional homogeneous steady turbulent flow are studied using a high-resolution DNS with up to N=1024(3) grid points. The range of the Taylor microscale Reynolds number is between 38 and 460. Isotropy at the small scales of motion is well satisfied from half the integral scale (L) down to the Kolmogorov scale (eta). The Kolmogorov constant is 1.64+/-0.04, which is close to experimentally determined values. The third order moment of the longitudinal velocity difference scales as the separation distance r, and its coefficient is close to 4/5. A clear inertial range is observed for moments of the velocity difference up to the tenth order, between 2lambdaapproximate to100eta and L/2approximate to300eta, where lambda is the Taylor microscale. The scaling exponents are measured directly from the structure functions; the transverse scaling exponents are smaller than the longitudinal exponents when the order is greater than four. The crossover length of the longitudinal velocity structure function increases with the order and approaches 2lambda, while that of the transverse function remains approximately constant at lambda. The crossover length and importance of the Taylor microscale are discussed. (C) 2002 American Institute of Physics.