Study on Free Surface and Channel Flow Induced by Low Temperature Plasma via Lattice Boltzmann Method

Wan Gang; Jin Yong; Li Haiyuan; Li Baoming

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Study on Free Surface and Channel Flow Induced by Low Temperature Plasma via Lattice Boltzmann Method

机译：格子Boltzmann方法研究低温等离子体诱导的自由表面和通道流动

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Active boundary layer flow control and boundary layer manipulation in the channel flow that was based on low temperature plasma were studied by means of a lattice Boltzmann method. Two plasma actuators were placed in a row to obtain the influence rule of their separation distance on the velocity profile at three locations and maximum velocity in the flow field. Two plasma actuators were placed symmetrically inside a channel to examine the effect of channel height and voltage on the velocity profile and flow rate. It was found that the channel height controls the distribution of flow velocity, which affected the flow rate and its direction. Increasing plasma voltage had a negative effect on the flow rate due to the generation of a larger and stronger flow vortex.

机译：利用晶格玻尔兹曼方法研究了基于低温等离子体的通道流中的主动边界层流量控制和边界层操纵。将两个等离子体致动器排成一排，以获取它们的分离距离对三个位置处的速度分布以及流场中的最大速度的影响规律。将两个等离子致动器对称地放置在通道内部，以检查通道高度和电压对速度分布和流速的影响。结果发现，通道高度控制着流速的分布，影响了流速及其方向。由于产生更大且更强的流动涡旋，增加等离子体电压对流速产生不利影响。

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《Plasma Science & Technology》 |2016年第3期|共6页
作者
Wan Gang; Jin Yong; Li Haiyuan; Li Baoming;
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正文语种 eng
中图分类物理学;
关键词
lattice Boltzmann method (LBM); low-temperature plasma; induced flow;

机译：格子玻尔兹曼法（LBM）;低温等离子体;诱导流;

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专利

1. Study on Free Surface and Channel Flow Induced by Low Temperature Plasma via Lattice Boltzmann Method [J] . Wan Gang, Jin Yong, Li Haiyuan, Plasma Science & Technology . 2016,第3期

机译：格子Boltzmann方法研究低温等离子体诱导的自由表面和通道流动
2. Comparative study of the discrete velocity and lattice Boltzmann methods for rarefied gas flows through irregular channels [J] . Wei Su, Scott Lindsay, Haihu Liu, PHYSICAL REVIEW E . 2017,第1a2CD期

机译：离散速度和晶格Boltzmann方法对稀土气体的比较研究流过不规则通道
3. Comparative study of the discrete velocity and lattice Boltzmann methods for rarefied gas flows through irregular channels [J] . Wei Su, Scott Lindsay, Haihu Liu, Physical review, E . 2017,第2aPta2期

机译：离散速度和晶格Boltzmann方法对稀土气体的比较研究流过不规则通道
4. EFFECTS OF SURFACE ROUGHNESS ON FLOWS THROUGH NANO/MICRO CHANNEL BASED BIOMEDICAL DEVICES - A STUDY BY LATTICE BOLTZMANN METHOD [C] . Mohammed S. Mayeed, Golam M. Newaz Frontiers in Biomedical Devices Conference; 20070607-08; Irvine,CA(US) . 2007

机译：表面粗糙度对基于纳米/微通道的生物医学器件流动的影响-格子Boltzmann方法研究
5. Numerical simulation of multiphase flows in microchannels using the Lattice Boltzmann Method. [D] . Amaya-Bower, Luz. 2010

机译：使用莱迪思玻尔兹曼方法的微通道中多相流的数值模拟。
6. Acoustic driven flow and lattice Boltzmann simulations to study cell adhesion in biofunctionalized μ-fluidic channels with complex geometry [O] . M. A. Fallah, V. M. Myles, T. Krüger, 2010

机译：声驱动流和格子Boltzmann模拟研究具有复杂几何形状的生物功能化μ流体通道中的细胞粘附
7. Comparative study of the discrete velocity and lattice Boltzmann methods for rarefied gas flows through irregular channels [O] . Su Wei, Lindsay Scott, Liu Haihu, 2017

机译：稀疏气体流经不规则通道的离散速度和格子Boltzmann方法的比较研究
8. Study of Particle Rotation Effect In Gas-solid Flows Using Direct Numerical Simulation with A Lattice Boltzmann Method. [R] . Kwon, K., Fan, L. S., Zhou, Q., 2014

机译：用格子Boltzmann方法直接数值模拟研究气固流动中的粒子旋转效应。

Study on Free Surface and Channel Flow Induced by Low Temperature Plasma via Lattice Boltzmann Method

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