轮台北1号凝析气藏低阻油气层成因及识别

留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名

邮箱

手机号码

标题

留言内容

验证码

Origin and identification of low-resistivity oil and gas reservoirs in no.1 structure, north of Luntai condensate gas reservoir

Yakela Oil & Gas Exploitation Factory, SINOPEC Northwest Company, Kuqa Xinjiang 842017, China

摘要: 轮台北1号构造古近系凝析气藏受构造、储层、成藏条件的影响,其油气储层电阻率为1.3 Ω·m,比白垩系巴什基奇克组气藏水层电阻率(2 Ω·m)低,导致勘探开发早期忽视了工区内低阻油气层的存在.通过分析轮台古近系低阻油气层的形成原因,建立了低阻油气层与水层的新识别标准,指导了YL2井区古近系凝析气藏的重大发现.
- 低电阻率 /
- 凝析气藏古近系 /
- 轮台北1号 /
- 塔里木盆地
Abstract: Influenced by structures, reservoirs and accumulation conditions, the resistivity of the Paleogene condensate gas reservoir in the no.1 structure of the northern Luntai condensate gas reservoir was 1.3 Ω·m, which was lower than that of aquifers in gas reservoir of the Bashijiqike Formation in Cretaceous by 2.0 Ω·m. It led to the neglect of low-resistivity reservoirs in early exploration. The origin of low-resistivity oil and gas reservoirs in Paleogene in the Luntai area was studied. A new identification standard to distinguish low-resistivity reservoirs and aquifers was established, which led to a great discovery of condensate gas reservoir in Paleogene of well YL2.
- low-resistivity /
- condensate gas reservoir /
- Paleogene /
- no.1 structure in northern Luntai

[1]	赵军,王淼.自然电位测井在低阻油气层识别中的应用[J].石油与天然气地质,2011,32(2):245-249.
[2]	解宏伟,田世澄.准噶尔盆地低阻油气层成因及识别[J].新疆石油地质,2008,29(2):219-221.
[3]	赵政璋,欧阳健,陆大卫,等.低阻油气藏测井识别评价方法与技术[M].北京:石油工业出版社,2006.