粘性气体速度层中颗粒在平面和异形圆盘表面上的运动分析

IF 0.3 Q4 MATHEMATICS

Journal of Siberian Federal University-Mathematics & Physics Pub Date : 2021-07-01 DOI:10.54362/1818-7919-2011-6-2-17-23

Valeriy I. Pinakov, Konstantin V. Kulik, Boris E. Grinberg

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引用次数: 0

摘要

在顶角为β = 120º的空气锥和平盘中旋转的实验表明，在Ω≥2.5赫兹的频率上，直径d≈1 mm和d≈0.1 mm的颗粒的运动存在质的差异。d≈0.1 mm的颗粒在近表面区域移动，d≈1 mm的颗粒跳跃到3cm。通过对球面和非球面(轴为d、d和4 /3 d的椭球体)粒子运动的比较，说明了大粒子跳变发生的必然性。由于马格努斯力的周期性出现，大粒子进入自振荡状态。小颗粒局限于速度层

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Analysis of the Particles’ Movement Over the Flat and Profiled Rotating Discs surface in the Velocity Layer of the Viscous Gas

Experiments on the rotating in the air cones with vertex angle β = 120º and flat disc shown that on frequencies Ω ≥ 2.5 hertz exists a qualitative difference in movement for the particles with diameters d ≈ 1 mm and d ≈ 0.1 mm. The particles with d ≈ 0.1 mm move in the near-surface region, the particles with d ≈ 1 mm jump up to 3 cm. Comparison of the spherical and aspheric (ellipsoid with axles d, d and 4 /3 d) particles' kinematics moving shown the inevitability of the large particles jump occurrence. Large particles come to self-oscillation regime by reason of periodically appearance of the Magnus force. Small particles are localized in the velocity layer

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来源期刊

Journal of Siberian Federal University-Mathematics & Physics MATHEMATICS-

CiteScore

0.90

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0.00%

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