1.
The oil-water contact (OWC) is the deepest level of producible oil.Similarly,the gas-oil contact(GOC) or gas-water contact(GWC),as the case may be,is the lower limit of producible gas.
油水界面是可采原油的最深部位。同样,油气界面或水气界面是可产天然气所能达到的最低深度。
2.
boundary pressure
油水或气水界面之平均流体压力
3.
Study on Carbon Dioxide Fluxes Across Water-air Interface in Nihe Reservoir
泥河水库水—气界面CO_2通量研究
4.
The waters of the earth's surface as distinguished from those of the lithosphere and the atmosphere.
水界地球表面的水,与陆界和大气层相区别
5.
GOC) or gas-water contact( GWC), as the case may be, is the lower limit of producible gas.
同样,油气界面或气水界面是可产天然气所能达到的最低深度。
6.
Effect of Dissolved Organic Matter on Mercury Release from Soil/Water/Air Interface;
DOM对汞在土壤—水—气界面释放的影响
7.
Adsorption Behavior of Functional Material on Water-Air Interface;
功能材料在水—空气界面上的吸附行为
8.
Study on Carbon Dioxide Partial Pressure and Its Flux on the Air-water Interface in the Yellow River Estuary and Yangtze Estuary;
黄河口、长江口pCO_2及水—气界面通量研究
9.
Effect of Dissolved Organic Matter and UV on Mercury Release from Water/Air Interface;
DOM和UV对水—气界面汞释放的影响
10.
CO_2 Flux across Water-air Interface in Zhalong Wetlands in Spring
扎龙湿地5月份水—气界面CO_2通量
11.
Control factors of pCO_2 and CO_2 degassing fluxes from the Yellow River in autumn
秋季黄河pCO_2控制因素及水-气界面通量
12.
A METHOD OF EARLY PREDICTING INITIAL GAS-WATER INTERFACE IN CARBONIFEROUS RESERVOIRS IN EAST SICIIUAN
川东石炭系气藏原始气水界面早期预测方法
13.
Investigation on Dynamic Surface Tension of Aqueous TTAB Molecules at Air/Water Interface;
气-液界面上TTAB水溶液动态表面张力的研究
14.
Rheological Studies of Soy Protein at the Air-Water and Oil-Water Interfaces
大豆蛋白在空气—水和油—水界面上的流变学研究
15.
SULFATE-METHANE INTERFACE:THE UPPER BOUNDARY OF GAS HYDRATE ZONE
天然气水合物的上界面——硫酸盐还原-甲烷厌氧氧化界面
16.
Study of Physicochemical Properties of Water-Soluablepolymer at Air Solution Interface
水溶性高分子在气液界面的物理化学性质研究
17.
Water Transport through Interface between Land and Atmosphere in Dry Season on Red Soil Slopes;
红壤坡地干旱季节地表/大气界面水分传输
18.
Three-Dimensional Computations on Capturing of Gas-Water Interface by Level Set Method
利用level set方法捕捉气、水界面的三维数值研究