本发明涉及一种能够强化液膜湍动的方孔型开槽导流式规整填料。
The invention relates to a square hole-shaped grooving diversion type structured packing which can intensify the turbulent motion of a liquid film.
定量分析表明乙醇和水系统解吸过程中,引发界面湍动的原因是局部较大的表面张力梯度。
The quantitatively experimental result showed that the reason that induces the Marangoni convection is the local large surface tension gradient along the interface of the gas and liquid.
荷电粒子会因为与强朗缪尔湍动的相互作用而得到加速,经过理论推导发现电子和质子能否得到加速与朗缪尔湍动强度有关。
After analyzing the interaction between charge particles and strong Langmuir turbulence we find whether the protons and electron can be accelerated is relevant to the intensity of Langmuir turbulence.
对水在空气中湍动雾化射流的气液两相流场进行了数值模拟。
Simulation of turbulence atomization jet in the air-water two phase flow field was performed.
太阳振荡的湍动随机激发及激发源的位置都已得到研究,不过现在问题还未完全解决。
The stochastic excitation mechanism by turbulence and the location of the excitation sources are well studied, but not completely understood.
气液相际间传质过程中,由溶质浓度梯度产生的表面张力梯度可以导致相界面湍动现象。
In the gas liquid mass transfer processes, solute concentration gradients may produce surface tension gradients, resulting in interfacial turbulence at the interface.
讨论了如下重要课题:弱非均匀性介质中波的传播方程,湍动加速和磁发电机制。
Important questions are discussed: transport equations of waves through weak inhomogeneous media, turbulent acceleration and magnetic dynamo.
利用理论结果的计算表明,对流层的湍动对流完全有可能激发足够的波能去补充日冕中等离子体对流和辐射造成的能量损失。
Evaluation results show that the turbulence in convection zone is capable of generating enough wave energy to supply coronal energy lose due to convection and radiation.
在热带大西洋大部分区域内,WHOI对湍动热通量的平均场和时间变化的估计精度要高于NCEP1和NCEP2产品。
In the most area of tropical Atlantic, the evaluation of magnitude and time series trends of flux in WHOI are more accurate than NCEP1 and NCEP2.
分析了控制强湍动现象的查哈罗夫方程。
Analytic treatments of Zakharov equations to control strong turbulent phenomena are mentioned.
传质过程中的界面湍动现象广泛存在,宏观上表现为传质阻力下降,传质速率增加。
The effect of interfacial turbulence on the mass transfer rate in physical absorption processes was investigated quantitatively.
实验结果表明湍动床存在着明显的轴向返混,轴向扩散系数与气速有关。
Experimental results indicate that the extents of axial gas backmixing are related the gas velocity.
在气液系统中,液相与气相阻力比越大,由界面湍动引起的传质的增强效应越显著。
In gas-liquid system, the bigger the resistance ratio of liquid side to gas side is, the more remarkable the enhancement of mass transfer by Marangoni effect becomes.
该文对等离子体天体物理中的强湍动进行了评述并强调了等离子体的基本相互作用。
In this paper, strong turbulence in plasma astrophysics is reviewed with emphasis on fundamental plasma interactions.
实验结果表明湍动床存在着明显的轴向返混,轴向扩散系数与气速有关。
As a result, a generalized correlations of the gas dispersion coefficient is obtained.
这些研究为激光等离子体中强湍动提供了更为清晰的物理图象,以便更加深刻地理解等离激元坍塌过程。
These researches provide a clearer physical understanding for the strong turbulence in laser plasma by numerical simulation, and make the plasmon collapse process more comprehending.
结果发现,晃动所产生的最大压强远大于初始最大静压强,流场湍动剧烈。
It was found that the maximum pressure produced by liquid sloshing is much larger than the initial static pressure and severe turbulence in flow field is produced upon sloshing.
切向风使颗粒旋转产生离心力,加剧了颗粒湍动,使床层表面呈漩涡状,这有利于喷雾液滴形成的锥面与颗粒相接触。
Tangential air makes the particles rotating and intensifies particles' turbulent motion, so the liquid drops are easier to collide with particles and wet them.
晨侧的磁场起伏(或湍动)相当活跃,而昏侧相当稳定;
The dawn side is very active in the fluctuations or turbulences of magnetic field, but the dusk side is stable;
在萃取过程中使用气体搅拌可以增加液液之间的接触面积,促进液相内的湍动和循环。
The gas agitation can promote the mixing between continuance phase and dispersed phase. At the same times , droplets of dispersed phase can be broken up to a small one.
分析可知,强朗缪尔激元的湍动加速机制解释激光等离子体中的离子或电子的加速问题是非常有效地。
Through the analysis, the strong Langmuir plasmon acceleration mechanism is effective in explaining the particles acceleration in laser-plasma interaction.
分析可知,强朗缪尔激元的湍动加速机制解释激光等离子体中的离子或电子的加速问题是非常有效地。
Through the analysis, the strong Langmuir plasmon acceleration mechanism is effective in explaining the particles acceleration in laser-plasma interaction.
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