可压缩均匀湍流中重粒子运动行为的先验研究  

作　　者：宾远为 武琦 夏振华 史一蓬[1] Bin Yuanwei;Wu Qi;Xia Zhenhua;Shi Yipeng(State Key Laboratory for Turbulence and Complex Systems,Peking University,Beijing 100871,China;Institute of Fluid Engineering,Zhejiang University,Hangzhou 310027,China)

机构地区：[1]北京大学湍流与复杂系统国家重点实验室,北京100871 [2]浙江大学流体工程研究所,杭州310027

出　　处：《力学学报》2024年第1期23-33,共11页Chinese Journal of Theoretical and Applied Mechanics

基　　金：国家自然科学基金资助项目(11988102)。

摘　　要：本研究以高精度可压缩均匀各向同性湍流直接数值模拟数据为基础,通过点粒子模型和单向耦合方式模拟了100万个重粒子在湍流中的运动.着重进行了两方面的研究,首先,通过使用不同滤波宽度的谱截断滤波器来获得大尺度流场,并研究了不同滤波尺度对粒子运动的影响;其次,设置了5种不同的粒子初速度,以研究粒子聚集性和运动学性质的演化.在研究粒子聚集性方面,使用了香农熵来描述粒子的瞬时聚集性,而稳态时的统计结果则通过概率密度分布函数来描述.研究结果表明,滤波尺度对不同Stokes数的粒子聚集效应产生不同的影响.具体而言,小尺度流动结构对低Stokes数的粒子聚集性有促进作用,而对高Stokes数的粒子聚集性则有抑制作用.此外,随着Stokes数的增加和截断波数的减小,粒子的速度和加速度的概率密度分布变得更为集中.另外,还发现颗粒的初始速度差异会在演化的初期产生明显影响,最终会趋于相同的统计定常状态.这一发现强调了湍流中粒子运动的复杂性和统计特性的重要性.The main objective of this study is to simulate the motion of one million heavy particles in turbulence using a point particle model and one-way coupling,based on high-precision compressible homogenous isotropic turbulence direct numerical simulation data.This work focuses on two aspects.Firstly,it uses spectral truncation filters with different filter widths to obtain large-scale flow fields and investigates the influence of different filter scales on particle motion.Secondly,this study sets five different initial particle velocities to investigate the evolution of particle clustering and kinematic properties.In the study of particle clustering,Shannon entropy is used to describe the instantaneous clustering of particles,while statistical results in the steady state are described using probability density distribution functions.The results show that the filter scale has different effects on particle clustering for different Stokes numbers.Specifically,small-scale flow structures promote particle clustering for low Stokes numbers,while they inhibit clustering for high Stokes numbers.Additionally,with increasing Stokes numbers and decreasing truncation wavenumbers,the probability density distribution of particle velocity and acceleration becomes more concentrated.Furthermore,this work also finds that differences in initial particle velocities have a significant impact in the early stages of evolution but eventually converge to the same statistical steady state.This discovery emphasizes the complexity of particle motion in turbulence and the importance of statistical characteristics.

关 键 词：湍流 重粒子 湍流尺度 

分 类 号：O3[理学—力学]