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中文核心期刊

圆管湍流减阻电磁力控制的直接数值模拟

Direct numerical simulation of turbulent pipe flow controlled by MHD for drag reduction

  • 摘要: 利用直接数值模拟研究了圆管湍流减阻的电磁力控制问题. 在圆管表面布置一层交替排列的条形电极和磁极,施加电压后在导电的流体介质中产生周向随时间变化的电磁力,通过改变电磁力的大小和变化周期等参数可以使阻力大幅减少. 研究减阻率和控制参数的关系,并研究了电磁力减阻的机理. 电磁力控制存在最优周期,阻力最大降低24.2\%; 电磁力控制抑制了流向和法向速度的脉动,而周向脉动速度随振荡周期的增大而增大.

     

    Abstract: We studied the MHD control of drag reduction in pipe flow through DNS. TheLorentz force is generated in the conductivity fluid by an array ofelectrodes and magnets fixed on the inner face of the pipe, when the voltageis applied on the electrodes. The drag is decreased numerously by changingthe amplitude and the period of the force. We studied the relation betweenthe ratio of drag reduction and the control parameters, and the physicalmechanism is discussed additionally. The MHD control possesses the optimumperiod, the maximum drag reduction is 24.2\%; The MHD control depressesthe fluctuations of the streamwise and normal velocity, but the azimuthalvelocity fluctuations grows with the increasing of the oscillatory period.

     

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