UM-SJTU Joint Institute, Shanghai JiaoTong University, Shanghai 200240, People's Republic of China.
State Key Laboratory of Marine Environmental Science, College of Ocean and Earth Sciences, Xiamen University, Xiamen 361102, People's Republic of China.
Phys Rev E. 2017 May;95(5-1):052215. doi: 10.1103/PhysRevE.95.052215. Epub 2017 May 24.
The active interaction between the bacteria and fluid generates turbulent structures even at zero Reynolds number. The velocity of such a flow obtained experimentally has been quantitatively investigated based on streamline segment analysis. There is a clear transition at about 16 times the organism body length separating two different scale regimes, which may be attributed to the different influence of the viscous effect. Surprisingly the scaling extracted from the streamline segment indicates the existence of scale similarity even at the zero Reynolds number limit. Moreover, the multifractal feature can be quantitatively described via a lognormal formula with the Hurst number H=0.76 and the intermittency parameter μ=0.20, which is coincidentally in agreement with the three-dimensional hydrodynamic turbulence result. The direction of cascade is measured via the filter-space technique. An inverse energy cascade is confirmed. For the enstrophy, a forward cascade is observed when r/R≤3, and an inverse one is observed when r/R>3, where r and R are the separation distance and the bacteria body size, respectively. Additionally, the lognormal statistics is verified for the coarse-grained energy dissipation and enstrophy, which supports the lognormal formula to fit the measured scaling exponent.
细菌和流体之间的主动相互作用即使在雷诺数为零的情况下也会产生湍流结构。基于流线段分析,对实验获得的这种流动速度进行了定量研究。在大约 16 倍的生物体长度处存在明显的转变,将两个不同的尺度区域分开,这可能归因于粘性效应的不同影响。令人惊讶的是,流线段提取的标度甚至在零雷诺数极限下也表明存在标度相似性。此外,通过对数正态公式可以定量描述多重分形特征,其中 Hurst 数 H=0.76,间歇性参数 μ=0.20,这与三维流体力学湍流结果巧合一致。通过滤波空间技术测量了级联的方向。证实了反向能量级联。对于涡度,当 r/R≤3 时观察到正向级联,当 r/R>3 时观察到反向级联,其中 r 和 R 分别是分离距离和细菌体尺寸。此外,粗粒化能量耗散和涡度的对数正态统计得到了验证,这支持了对数正态公式来拟合测量的标度指数。
