1) turbo-flow (nozzle) headbox
湍流(喷嘴式)流浆箱
2) turbulence
湍流
1.
Gas-solid two-phase model of raceway considering particle influence on turbulence;
考虑颗粒对高炉风口回旋区湍流影响的气固两相模型
2.
Ultra-fine comminution of LDPE with turbulence milling at atmospheric temperature;
常温下低密聚乙烯的湍流超细粉碎研究
3.
Measurement and research on the turbulence parameters in the cyclone tube;
旋风管内湍流运动参数的测量与研究
3) turbulent flow
湍流
1.
Flow resistance researches for SK static mixer tube of turbulent flow;
SK型静态混合器流体湍流阻力的研究
2.
A mathematical model for swirling turbulent flow in the axisymmetric burner;
燃烧器内轴对称涡旋湍流流动的数学模拟
3.
Research on silt carrying capacity of turbulent flow and sand sluicing at bottom outlet;
湍流挟沙能力与底孔冲沙研究
4) turbulent
湍流
1.
A new hydro-style turbulent contact scrubber and application for coal handling system in thermal power plant;
新型湿式湍流除尘器及在电厂输煤系统中的应用
2.
Study on a Turbulent Combustion Model of DME Engine;
二甲醚发动机湍流燃烧模型的研究(英文)
3.
Theoretical study on melting time of tiny ice crystals in turbulent water;
湍流中微小冰晶融化时间的理论研究
5) turbulence flow
湍流
1.
A Predict model of the particl random dispersion in turbulence flow;
粉尘在湍流中随机扩散预报模型
2.
High Reynold s k-ε model is adopted for turbulence flow.
数值模拟的出发方程为雷诺平均的Navier Stokes方程 ,湍流模型采用了高雷诺数k-ε两方程模型 ,应用二阶的TVD格式 ,给出了SOC形弹丸的流场波系结构和湍流粘性系数的分布规律。
6) Turbulent flows
湍流
1.
Fourth-order compact scheme finite volume method for large eddy simulations of turbulent flows;
四阶紧致格式有限体积法湍流大涡模拟
2.
Based on wind tunnel test, the wind pressure distribution and wind load shape coefficient of the aqueduct structure with different height-width ratio are obtained in uniform and turbulent flows.
对矩形和U形渡槽槽体在均匀流场和湍流场中各取不同的高宽比进行了风洞试验,分别测量了槽内有水和无水两种情况下槽体各个部位的风压系数,进而算得了渡槽结构的风载体型系数。
3.
Therefore, It is impotant that turbulent flows is studied by molecular dynamics.
对此法的原理、模拟的模型及其在湍流流动中的应用进行了综述。
参考词条
补充资料:超流湍流态(superfluidturbulentstates)
超流湍流态(superfluidturbulentstates)
液HeⅡ中流速超过临界值vc时,有附加阻力存在,出现耗散流,非线性效应明显。例如有温度差时,在热流不大的线性范围,热流正比于温度梯度`\nablaT`,但流速超过vc后,热流即减小,它正比于$(\nablaT)^{1//3}$。这类耗散现象称超流湍流,所处的这种状态称超流湍流态,它可视为由大量涡旋线的存在而发生的。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。