In fully developed turbulence, the velocity field possesses long-range correlations, denoted by a scaling power spectrum or structure functions. Here we consider the autocorrelation function of velocity increment Delta ul(t) at separation time l. Anselmet et al. (J. Fluid Mech., 140 (1984) 63) have found that the autocorrelation function of velocity increment has a minimum value, whose location is approximately equal to l. Taking statistical stationary assumption, we link the velocity increment and the autocorrelation function with the power spectrum of the original variable. We then propose an analytical model of the autocorrelation function. With this model, we prove that the location of the minimum autocorrelation function is exactly equal to the separation time l when the scaling of the power spectrum of the original variable belongs to the range 0 < beta < 2. This model also suggests a power law expression for the minimum autocorrelation. Considering the cumulative function of the autocorrelation function, it is shown that the main contribution to the autocorrelation function comes from the large scale part. Finally we argue that the autocorrelation function is a better indicator of the inertial range than the second-order structure function.

• 出版日期2009-5
• 单位中国科学技术大学; 上海大学