深盆气藏是指在特殊地质条件下形成的、具有特殊圈闭机理和分布规律的非常规天然气藏。
As a kind of abnormal gas accumulation, deep-basin gas is trapped with particular geological conditions and has particular trapping mechanism and distribution pattern.
游离相天然气在从运移到聚集和保存的过程中,通常存在着深盆气藏和常规圈闭气藏两种机理模式。
There are two typical kinds of mechanisms and models for gas migration, accumulation and preservation, including deep basin or basin centered gas accumulations and generally trapped gas accumulations.
通过烃源岩生排烃史、圈闭发育史和成藏史分析,研究了油气藏的形成机理,探讨了成藏模式。
The pool forming mechanism and pattern are studied through analyzing hydrocarbon generation and expulsion history, trap development hi story and pool forming history.
文章对圈闭评价和模糊数学的基本概念进行了介绍,详细地阐述了模糊数学在圈闭评价中的应用机理。
In the paper, the basic concepts of trap evaluation and fuzzy mathematics are introduced and the mechanism of applying fuzzy mathematics to trap evaluation is expounded in detail.
在川西坳陷这个致密砂岩领域,圈闭和气藏的形成机理相当复杂,其根本原因在于盆地有着相当复杂的形成与演化史。
In the West Sichuan Depression with tight sand, the formation mechanism of traps and gas reservoir is quite complicated, resulted from the basin's complex evolution.
游离相天然气在从运移到聚集和保存的过程中,通常存在着深盆气藏和常规圈闭气藏两种机理模式。
The typical deep basin gas accumulation is usually of the properties of piston_typed migration way, up grow_typed accumulation and actively dynamic preservation models, whi.
库车再生前陆盆地地下构造复杂,正确的构造解释就成为了解盆地成因机理和油气圈闭的关键所在。
The subsurface structures of the Kuqa rejuvenated foreland basin are really complex, so a correct interpretation of them is the key for understanding the genesis of the basin and hydrocarbon traps.
对工区岩样利用毛管自吸法建立含水饱和度,评价气层水相圈闭的趋势,并分析引起水相圈闭损害的机理。
The water phase trapping tendency is studied by the way of the spontaneous imbibition's method to initial water saturation, and the damage mechanisms of the water phase trapping are synthesized.
根据形成机理,将其岩性圈闭进一步划分为原生和次生两种类型。
The lithologic traps can be further divided into two types, i. e. primary and secondary lithologic traps, according to forming mechanisms.
对于低渗微裂缝储层钻井完井作业而言,固相侵入、应力敏感、水相圈闭是主要损害机理。
For low permeability micro - fractured reservoirs drilling and completion operations, the solid phase invasive, stress-sensitive, water trapping is the main damage mechanism.
对于低渗微裂缝储层钻井完井作业而言,固相侵入、应力敏感、水相圈闭是主要损害机理。
For low permeability micro - fractured reservoirs drilling and completion operations, the solid phase invasive, stress-sensitive, water trapping is the main damage mechanism.
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