1) air-water interface
气-水界面
1.
The presence of air-water interface in batch sorption experiments may result in inaccurate estimation of virus adsorption onto various soils.
气-水界面存在可能导致不能正确评价土壤对病毒的静态吸附能力。
2.
A discrete air-water interface is used to separate the saturated zones from the drained zones within each single fracture of fracture network.
非饱和带裂隙中的饱和区和排干区可以用一个离散的气-水界面分隔开。
2) Gas-water interface
气水界面
1.
It is necessary to accurately monitor location of gas-water interface in annular between casing and test tube for pressurized sealing property test of cavity of salt dome gas storage well in Jintan,Jiangsu,so DDL-III logging system and 111/16 inch.
江苏金坛盐穴地下储气库井腔体试压密封检测需要精确监测套管和测试管柱之间的环形空间中气水界面位置的变化情况,为此选用了哈里伯顿公司生产的DDL-Ⅲ数控测井系统和直径111/16in的伽马中子测井仪以及配套的井口密封设备。
2.
A lot of data including MDT, NMR (nuclear magnetic resonance) measurement points, cross-dipole acoustic image are used to identify the fluid nature, describe the distribution law of fluids, and determine the gas-water interface of gas reservoirs.
利用高精度三维地震资料对松辽盆地南部长岭断陷火山岩分布及其火山喷发期次进行描述,并落实火山岩顶面构造特征和火山岩气藏圈闭类型;利用元素俘获测井和微电阻率扫描成像测井技术对该火山岩岩性进行标定、识别,并定性、定量评价火山岩储层裂缝发育程度;利用MDT、核磁点测、交叉偶极声波成像等资料对流体性质进行识别,描述了流体分布规律,确定气藏的气水界面;利用核磁、密度测井联合求取有效孔隙度;利用核磁T2谱转换毛管压力求取含气饱和度等,在此基础上计算长岭1号气田火山岩气藏探明储量。
3) gas and water interface
气水界面
1.
Based on acquired static and dynamic temperature data of wells of Shengshen101,Zhaoshen8,that applying the curve of relationship of temperature and depth in well bore to determine gas and water interface provides a basis for well logging and logging which provides a reliable parameters for calculating reserves of gas well.
以升深101、肇深8井静态温度、动态温度资料为基础,尝试应用井筒中温度—深度关系曲线进行气井气水界面确定的新方法,为测井、录井确定气井气水界面提供了可靠依据,为气井的储量计算提供了可靠参数;此方法应用到压后井温曲线分析,可以解决气液层的识别问题,验证测井和综合判断解释结果,为压后试油工作制度的确定提供可靠信息。
2.
Site of gas and water interface in reservoir plays an important way to locate area bearing gas,determine depth of it and calculate reserves.
地层中气水界面位置 ,对圈定气藏的含气面积 ,确定气藏厚度 ,计算储量极为重要。
4) air-water interface
水气界面
1.
Experimental measurements of the turbulence characteristics under sheared air-water interfaces;
剪切水气界面下湍流特性的实验测量
2.
The issue of gas transfer at air-water interfaces has received world wide concern due to its relevance in the budget of climate modifying gases.
水气界面处的气体传输问题由于其对于地球大气中温室效应气体收支的重要意义,近年来受到广泛的关注。
5) water-air interface
水-气界面
1.
Volatilization kinetics on volatilization of water-air interface of methamidophos;
甲胺磷在水-气界面挥发动力学研究
2.
Diurnal variation of carbon dioxide flux on water-air interface of Meiliang Bay,Taihu Lake in wintertime.;
太湖梅梁湾冬季水-气界面二氧化碳通量日变化观测研究
3.
Based on the measurement of the CO-2 flux on the water-air interface of Taihu Lake by closed chamber technique from January 2003 to June 2005,variation characteristics of the CO-2 flux on the water-air interface in Taihu Lake are analyzed.
基于2003-01~2005-06利用静态箱法对太湖水-气界面CO2交换通量的观测,对太湖水-气界面交换通量的变化特征进行了分析研究。
6) floating chamber
水气-界面
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