考虑盐岩蠕变的井身结构设计研究的关键在于思想方法的更新。
The key of the study of the well structure design considering the salt creep is the design idea must be changed.
文章方法对高温高压井井身结构设计、套管强度设计有一定的指导作用。
The method could instruct well structure design and casing intensity design in HP/HT wells.
根据盐岩蠕变规律研究成果,在塔里木油田秋参1井井身结构设计中得到成功应用。
According to the results of the study of the salt creep rules, the results of the well construction were successfully applied in Tarimy Qiucan well 1.
在对高温高压井进行井身结构设计时必须考虑测试期间存在的隐患,才能保证套管安全。
Only the hidden trouble existing in the testing stage has been considered in designing the casing program for the high temperature and high pressure well, can the casing safety be guaranteed.
结合深水钻井的特点,考虑钻井施工的特殊要求,开发了深水双梯度钻井井身结构设计及优化程序。
And considering the features and particular requirements of deepwater drilling, a program for deepwater DGD well casing program design and optimization is developed.
双梯度钻井为深水钻井井身结构设计提供了一种新的优化方法,具有显著的经济效益和工业实用价值。
Therefore, DGD may provide an alternative optimization method for deepwater well casing program design, which can produce remarkable economic and industrial values.
该扶正器最初的设计目的在于替换固体式扶正器,用于下套管作业,以及复杂井身结构,如水平井、大位移井、J -型井、S -型井和具有其他井身结构设计的井。
It is designed specifically to replace a solid body type centralizer for casing running applications and severe well geometries when run in horizontal, long ERD, J-type, S-type and other well designs.
该扶正器最初的设计目的在于替换固体式扶正器,用于下套管作业,以及复杂井身结构,如水平井、大位移井、J -型井、S -型井和具有其他井身结构设计的井。
It is designed specifically to replace a solid body type centralizer for casing running applications and severe well geometries when run in horizontal, long ERD, J-type, S-type and other well designs.
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