1) gas-fluid interface
液-气界面
2) gas-liquid interface
气液界面
1.
On the basis of introducing the structure,performance index and test principle of the RMT,this paper describes its favorable application effects in dividing the gas-liquid interface through which fluid in- terface in the subsurface reservoir can be monitored and evaluated regularly thus to determine the.
而本文在介绍仪器结构、性能指标与测试原理的基础上,通过对实际测井资料进行综合分析,阐述了RMT在划分气液界面具有很好的应用效果,能够实现地下储层流体界面的定期监测与评价,从而确定射孔的有效性。
2.
The behaviors of gas-liquid interface associate with two-phase annular flow regime in horizontal micro tubes are investigated with linear stability analysis.
本文以水平微圆管内气液两相环状流气液界面为研究对象,通过分析重力、表面张力和界面剪切力对环状流液膜厚度的影响,重点考虑Rayleigh不稳定性对气液界面的依存关系,得到了不同管径和气核直径变化时不稳定性的变化规律,并分析拟合了最危险波长和气核直径的关联式,为后续建立高热流密度条件下微通道内强化传热理论模型奠定基础。
3.
The composition and optical characte ri stics of a self-made,real-time and microscopic dual wavelength holographic in terferometer for visualizing the concentration profiles on gas-liquid interface were reported in this paper.
利用该系统测量了甲醇 -乙醇 - CO2 等三元物系气液界面处液相侧的浓度场 ,得到了清晰的两个实时全息干涉条纹图 ,清楚地观察到了气液两相界面存在的湍动现象 ,从而验证了该系统的可靠性。
3) air/water interface
气液界面
1.
The mixed monolayer behavior of cationic Gemini surfactant([C_(18)H_(37)(CH_3)_2N~+-(CH_2)_3-N~+(CH_3)_2C_(18)H_(37)],2Br~-,abbreviated as 18-3-18,2Br~(-1)) and stearic acid(SA) at the air/water interface was investigated in this paper.
研究了阳离子型Gemini表面活性剂([C18H37(CH3)2N+—(CH2)3—N+(CH3)2C18H37],2Br-,简写为18-3-18,2Br-1)和硬脂酸(SA)混合单分子膜在气液界面上的性质;测定了这一混合体系的表面压-平均分子面积(-πA)等温线;计算了混合单分子膜的压缩比(κ)以及过剩面积(Aex)与混合单分子膜的组成(硬脂酸的摩尔分数,xSA)的关系;给出了过剩面积和理想混合面积之比与混合单分子膜组成的关系;并用原子力显微镜(AFM)观察了单分子膜在不同组分下的形貌。
4) air/water interface
气/液界面
1.
The mixed monolayer at the air/water interface of two Gemini surfactants C11pHCOOH and 2C12-8-2C12·2Br mixture was studied using Langmuir balance technique.
用Langmuir膜天平测定了双头基四疏水链的季铵盐Gemini表面活性剂2C12-8-2C12·2Br和羧酸型Gemini表面活性剂c11pPHCOOH在气/液界面的表面压(π)-每个分子平均占据面积(A)的等温线,考察了压缩模量(ε)、过剩面积(△AE)、过剩自由能(△GE)等热力学参数随混合体系组成的变化。
2.
The adsorption and spreading at air/water interface are the important aspects of the self-assembly behaviors.
Gemini表面活性剂独特的分子结构使其具有复杂且新颖的自组织行为,其中在气/液界面的吸咐和铺展是其自组织行为的重要方面。
3.
This paper reviews the recent progress in molecular behavior of microbial lipopeptides represented by surfactin at the air/water interface.
本文重点以表面活性素为评述对象,综述了近年来微生物脂肽在气/液界面上分子形态的研究进展。
5) gas-liquid interface
气-液界面
1.
The determination of mechanistic model for GLCC has the important reference for establishing the models of equilibrium liquid level and gas-liquid interface.
柱状气液旋流器机械设计模型的确定对平衡液位模型和气-液界面模型的建立有重要意义。
6) liquid-vapor interface
气液界面
1.
The relation of γ* and df reveals a fact that the fractal dimension is actually an important digital character of the liquid-vapor interface.
利用分形理论对Lennard-Jones12-6流体气液界面性质进行了研究。
2.
In the process of studying on the liquid-vapor interface, the number of slabs of system will influence the conduct of working out statistic thermodynamics properties.
在对气液界面层内热力学性质研究中,对计算机分子动力学模拟体系切片的划分影响着对其热力学性质的统计。
补充资料:液气界面
液气界面
液体与气体的接触分界处。
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