1) water entry suction
进水吸力
2) suction pipe line
进(吸)水管道
3) Injectivity
吸水能力
1.
A comprehensive study has been made on the descendent injectivity of injection wells in Rongxingtun oilfield, based on experimental data, in?situ sampling and analyses.
以荣兴屯油田储层特征研究成果为基础 ,以室内实验数据为依据、通过现场取样和化验分析 ,对荣兴屯油田储层吸水能力下降的原因进行了综合性研究分析 ,结果表明 :荣兴屯油田注水井吸水能力下降的主要原因是储层自身物性差、注入水水质不合格、注入水与产层不配伍及不适宜的注水强度。
4) water injectivity
吸水能力
1.
An analysis of water injectivity in the pilot area of SZ36-1 oilfield and a preliminary probing into water-injection mode of viscous oilfield;
绥中36-1油田试验区注水井吸水能力分析及稠油油田注水模式初探
2.
Method\ The numerical simulation has been taken to study the influence of water temperature on reservoir temperature, reservoir production effect, BHP of injection well and water injectivity in high pour-point reservoirs.
方法 利用数值模拟方法 ,研究了热水驱开采高凝油油藏中注水温度对油藏温度、油层开采效果、注水井井底压力及油层吸水能力等的影响。
3.
By analyzing water injectivity and production capacity in main microfacies sandbodies,it is concluded that the distributary channel and the mouth bar have more production capability than the front sheet sand has at the late stage of oilfield development.
分析了双河油田储层主要微相砂体的产液和吸水能力,认为油田开发后期前缘席状砂提液能力差,而水下分流河道和河口坝具有较强的提液能力;油田开发后期前缘席状砂吸水能力差,难以补充提液后造成油层压力亏空,而水下分流河道和河口坝具有较强的吸水能力,很容易实现注采平衡,保证油井持续提液。
5) water absorbing ability
吸水能力
1.
The latest development of the water absorbing mechanism ,the influential factors and the mathematical methods of water absorbing ability of super absorbent polymer were introduced.
简述了近年来有关吸水性聚合物的吸水机理、影响吸水能力的因素以及吸水聚合物吸水能力表征方法的进展。
2.
Centrifuge method was used to measure soil water characteristic curve,through analyzing water absorbing ability and water retention ability of soil to investigate the influence of soil conditioner on soil water availability.
以聚丙烯酰胺(PAM)与磷石膏(PG)为土壤结构改良剂,利用离心机法,测定土壤水分特征曲线,从分析土壤的吸水能力和持水能力的角度出发,研究土壤结构改良剂对土壤水分有效性的影响。
3.
The results showed: (1) As the resaturate initial water deficit increased,the resaturate relative water content (RSRWC) of twigs declined, and the water absorbing ability declined.
本文对生长在呼和浩特地区16年生油松的小枝在不同水分亏缺状况下的恢复吸水能力进行了研究,结果表明:(1)油松小枝随重饱和初始水分亏缺程度增大,重饱和相对饱和含水量下降,恢复吸水能力下降。
6) water absorption under pressure
压力吸水
补充资料:吸力
1.即引力。物理学上多指磁体作用所表现的吸引他物的力量。比喻使人倾心﹑迷恋的能力或魅力。
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