ASSESSING THE EFFECTS OF NEAR WALL CORRECTIONS OF THE FORCE ACTING ON PARTICLES IN GAS-SOLID CHANNEL FLOWS

机译：评估近壁修正力对气固通道流动中颗粒物的影响

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The importance of using the lift force and wall-corrections of the drag coefficient for modeling the motion of solid particles in a fully-developed channel flow is investigated by means of direct numerical simulation (DNS). The turbulent channel flow is computed at a Reynolds number based on the wall-shear velocity and channel half-width of 185. Contrary to most of the numerical simulations, we consider in the present study a lift force formulation that accounts for the weak and strong shear as well as for the wall effects (hereinafter referred to as optimum lift force), and the wall-corrections of the drag force. The DNS results show that the optimum lift force and the wall-corrections of the drag together have little influence on most of the statistics (particle concentration, mean velocities, and mean relative and drift velocities), even in the near wall region.

机译：通过直接数值模拟（DNS），研究了使用升力和阻力系数的壁校正在完全发展的通道流中模拟固体颗粒运动的重要性。基于壁切速度和通道半宽度185，以雷诺数计算湍流通道流量。与大多数数值模拟相反，我们在本研究中考虑考虑了弱和强力的升力公式剪切力以及壁效应（以下称为最佳升力）以及壁力的修正。 DNS结果表明，即使在壁附近区域，最佳的提升力和阻力的壁修正对大多数统计数据（颗粒浓度，平均速度以及平均相对和漂移速度）的影响也很小。

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《ASME(American Society of Mechanical Engineers) Fluids Engineering Division Summer Conference(FEDSM2005) vol.1 pt.A; 20050619-23; Houston,TX(US)》|2005年|P.713-720|共8页
会议地点 HoustonTX(US)
作者
Boris Arcen; Anne Taniere; Benoit Oesterle;
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LEMTA-UMR 7563 CNRS ESSTIN, Henri Poincare University Vandoeuvre-les-nancy, 54500 France;

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原文格式 PDF
正文语种 eng
中图分类工程流体力学;机械设计、计算与制图;
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ASSESSING THE EFFECTS OF NEAR WALL CORRECTIONS OF THE FORCE ACTING ON PARTICLES IN GAS-SOLID CHANNEL FLOWS

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