1) turbulence energy
湍流能
2) turbulent kinetic energy
湍流动能
1.
Average velocity and turbulent kinetic energy k distribution were obtained.
476m的六直叶涡轮桨搅拌槽内,采用粒子图像测速仪(PIV)对桨叶区的流场进行了实验研究,得到了桨叶区的平均流速和湍流动能(k)分布,采用大涡PIV方法对湍流动能耗散率(ε)分布进行了估算,计算了ε与k的相关系数。
2.
Based on the tendency equation of turbulent kinetic energy, its simplified equation including only wind shear and air stability was derived.
基于湍流动能倾向方程,推导出了其只含风切变和大气稳定度的简化方程。
3.
The distribution of Reynolds shear stress and turbulent kinetic energy was described and the correlation of these two quantities was discussed.
简述了在西北工业大学低湍流度风洞中,用热线风速仪对翼型边界层及近场尾流中雷诺正应力及切应力等的测量结果,着重讨论了雷诺切应力及湍流动能的分布规律及相关特性。
3) turbulence energy
湍流能量
1.
Results indicated that turbulence energy in sea-breeze circulation is greater than that in landbreeze circulatiOn.
结果表明,海风环流中的湍流能量大于陆风环流中的。
2.
In this paper, a three dimenstional baroclinic turbulence energy model in the Bohai Sea is developed.
研究建立渤海海域三维斜压场的湍流能量模型。
4) turbulence kinetic energy
湍流动能
1.
), turbulence kinetic energy and sensible heat flux are calculated and their characters are analyzed under different stability and compared with the r.
采用2000年8月在美国加州棉花地两个高度上应用超声三分量仪、快速响应温度和湿度仪进行的EBEX2000(InternationalEnergyBalanceExperiment,2000)风速三分量、温度和湿度湍流实验观测数据,计算分析了湍流宏观量(即u,T,σu/u,σv/u,σw/u和σT/T等),湍流动能和感热通量等的特征,并与其他湍流实验得到的结果进行了比较。
5) turbulence int ensity
流场湍动能
6) turbulence kinetic energy dissipation rate
湍流动能耗散率
补充资料:比释动能
比释动能
kinetic energy released in material; kerma
bishi由叩neng比释动能(kineticene卿rele胎ed in Irlaterial;ke~)剂量学量之一。1958年,w.c.勒施提出单位质t所释放的动能的概念,称为kerm(kinetiee”e咬万回eaa司卿画t~),反映不带电粒子辐射与物质相互作用中的能t传递。后又采用比释动能ke~(七杨。ene耳妙花1以曰妇inm川e‘目),符号为K。比释动能的定义为dE。除以dm所得的商,即 K== dE,/dm式中dE。为不带电粒子在质量为dm的物质中所释放的所有带电粒子的初始动能之和。sI单位为凡一‘(焦耳每千克),专用单位为仰(戈〔瑞」)。适当选择物质中的比释动能,可以方便地描述不带电粒子的辐射场,例如空气比释动能、组织比释动能等。 (吕维纯徐涌)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条