不受断层控制的鼻状构造带主要发育构造—岩性圈闭。
Traps in a nose structure that is not controlled by big faults mainly developed structural-lithologic traps.
鼻状构造背景形成油气运移的低势区,决定了油气运聚方向;
The low potential region of hydrocarbon migration, developed under the nose-shape conformation background, leads the hydrocarbon moving direction.
肇州油田芳169区块位于松辽盆地三肇凹陷南部肇州鼻状构造。
Fang 169 block in Zhaozhou oilfield is part of the Zhaozhou nose structure located in the south of Sanzhao depression of the Songliao Basin.
③构造上为一西倾鼻状构造,大型剪切断裂发育且将构造复杂化;
On structure it is a west leans' structural nose, the large-scale shear fracture growth and complicate the structure;
提出了安棚鼻状构造的沉积成因机制,并分析了鼻状构造与裂缝形成的关系。
The analysis on reservoir depositional system indicates the genesis mechanism of Anpeng structural nose and its connection with the generation of reservoir fractures.
在单斜的大背景下,由于构造活动,也可成为重要的油气聚集场所,如鼻状构造等。
Because of the structural activities, the monocline setting such as nose-structure can become the oil-gas accumulation place.
切割大型鼻状构造的断层是深部二叠系油气进入侏罗系储集层的通道,在特定地区形成混源。
The faults which cut the nose are the path of oil and gas originated from deep Permian strata and mixed with the Jurassic self generated oil and gas.
大王庄鼻状构造不同时期活动性的差异制约着该区的构造格局,从而影响了油藏的形成和类型。
Activity difference of Dawangzhuang nosing structure at different stages restricts the tectonic framework in this area, so affects formation and type of oil pool.
富台油气田的主体构造由下古生界车古20潜山和其上覆的下第三系车3鼻状构造两部分组成。
The main structure of Futai oilfield is composed of the Lower Paleozoic Chegu 20 buried hill and the overlying Eogene Che 3 nose-like structure.
山西西部柳林鼻状构造处于鄂尔多斯盆地东缘的河东煤田中段,是我国煤层气勘探的重要选区之一。
Liulin nose structure located in the central Hedong coal field, eastern Ordos Basin, Western Shanxi Province, is one of the most important regions chosen for exploration of coalbed gas.
新开断裂对新开鼻状断裂构造带的形成及油气的分布起着重要的控制作用。
Xinkai fault plays a important role in controlling the forming of Xinkai nose structure belt and the distribution of oil and gas.
有利的沉积相带、运移输导条件及鼻状隆起构造共同控制了延长组主力油层的分布。
The sedimentary face zone, reservoir physical properties, nose fold background and the condition of hydrocarbon migration carrier are the main factors of control hydrocarbon accumulation.
有利的沉积相带、运移输导条件及鼻状隆起构造共同控制了延长组主力油层的分布。
The sedimentary face zone, reservoir physical properties, nose fold background and the condition of hydrocarbon migration carrier are the main factors of control hydrocarbon accumulation.
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