1) unsteady flow to a well
不稳定井流
2) steady well flow
稳定井流
1.
Based on this,it applied MLPGto the solution of steady well flow of groundwater.
在此基础上,研究了它在求解地下水稳定井流数学模型中的应用。
3) transient well test
不稳定试井
1.
Taking well TKxxDH as an example,two times of pressure buildup test data of the horizontal well were analyzed and compared using transient well test theory.
本文以TKxxDH井为例,利用水平井的不稳定试井分析理论,对比分析了前后两次的压力恢复试井资料。
2.
Transient well test is a well test method widely used in coruse of oil and gas field exploration and gas field exploration and production.
不稳定试井可以为油田稳定和挖潜解决更多的实际问题。
3.
In oilfield development, the reservoir performance information which the transient well test reflects is very abundant, however, at present, the employment of well test data is only individual well and single well test.
油田开发中 ,不稳定试井所反映的油藏动态信息非常丰富 ,但目前对试井资料的利用 ,还只是限于对单井单次试井分析得到的关于储层的定量信息。
4) unstable well testing
不稳定试井
1.
The composite model is used for the two unstable well testing interpretation models of this well.
该井两次不稳定试井解释模型都选用复合模型 ,并通过评价说明该井有很好的前景。
6) transient testing
不稳定试井
1.
Applying transient testing to the judgement of inter-well connectivity;
应用不稳定试井判断井间连通性
2.
Taking the two-rate transient testing example of the ultra-deep horizontal well for non-saturated sandstone reservoir in H oilfield of tarim, it is proved that the theory is mature, applied condition is clear and definite, the effect is good.
经对塔里木H油田未饱和砂岩油藏超深水平井两流量不稳定试井实例分析,证实两流量不稳定试井技术理论成熟、应用条件明确、实施效果良好。
3.
It is advised that next transient testing operation is necessary to be done in half a year so as to evaluate deep gas reservoir in Shuangtuozi gas field and reasonably develop it.
建议在生产时间为半年时,对井重新做一次不稳定试井测试,以指导双坨子深层气藏储层评价及合理开发。
补充资料:稳定/稳定浴
分子式:
CAS号:
性质:照相中的稳定作用是指防止感光材料在保存过程中由于药膜中残留药液的作用而引起的暗褪色、色污染及霉变等弊病。通过正常冲洗或无水洗加工最后一个工序——稳定工序,可稳定照相影像,使之不变或变化极小。能起稳定作用的浴液称稳定浴。无水加工中的稳定浴主要由pH值控制剂、铁隐蔽剂、防霉剂、坚膜剂、软水剂、有机助剂等组成。
CAS号:
性质:照相中的稳定作用是指防止感光材料在保存过程中由于药膜中残留药液的作用而引起的暗褪色、色污染及霉变等弊病。通过正常冲洗或无水洗加工最后一个工序——稳定工序,可稳定照相影像,使之不变或变化极小。能起稳定作用的浴液称稳定浴。无水加工中的稳定浴主要由pH值控制剂、铁隐蔽剂、防霉剂、坚膜剂、软水剂、有机助剂等组成。
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