liquid-vapor interface meaning in Chinese
气液界面
液-汽相界面
液汽界面
Examples
- The fractal theory was used to study the character of liquid - vapor interface in the paper , hence the application of the fractal theory in thermal subjects could be solved and a way to calculate the fractional dimension number in the process of simulation could be put forward . the fractional dimension number describing the character of the liquid - vapor interface was calculated . the distinct fractional dimension numbers in x , y and z direction reveal that the simulation system is an anisotropic one
并将分形理论运用到汽液界面的研究中,提出了在汽液界面中计算分维数的方法,得到了描述汽液界面特性的数字特征变量? ?分维数,同时根据所得到的x 、 y和z方向分维数的不同,证明了汽液界面是各向异性的,并对汽液界面进行了定性和定量的分析,得到了汽液界面是典型的分形面的结论。 - The distributions of the local density , thickness , temperature , tangential and normal stress and surface tension were acquired by the study of liquid - vapor interface . these simulated data agree well with corresponding experimental data and the md simulation results from other authors , consequently it is proved that the model and simulation method in the paper are correct
对汽液界面进行了分子动力学研究,获得了汽液界面局域的密度、厚度、温度、切向应力和法向应力以及表面张力的分布,并把这些数据与相应的实验数据和其他作者的模拟结果相比较,吻合较好,从而证明了本文所采用的模拟方法和模拟模型是正确的。 - The results can be summarized into the following aspects : molecular dynamics study of liquid - vapor interface shows that the planar liquid - vapor interface at macroscopic level is in fact a wavy surface fluctuating with time , and the length scale of the fluctuating region of the wavy surface is the thickness of the liquid - vapor interface . with speckle laser visualized experiment , the fluctuation of the interface can be verified qualitatively . moreover , md simulations indicate that in the liquid - vapor equilibrium system , there exists a local non - equilibrium region near the interface
主要研究成果归纳如下:对汽液界面进行了分子动力学研究,揭示出宏观尺度的平界面在分子尺度上是随时间起伏涨落的曲分界面,分界面的涨落区域就是汽液界面的厚度,相应的激光散斑实验也定性地证明了界面涨落区的存在;研究还发现在汽液平衡体系中,界面附近存在局域热非平衡区域,并指出了其可能的原因及影响。