中非Melut盆地与我国东部裂谷盆地的类比及意义

史忠生; 方乐华; 薛罗; 王国林; 何巍巍; 马轮

doi:10.3799/dqkx.2018.205

中非Melut盆地与我国东部裂谷盆地的类比及意义

doi: 10.3799/dqkx.2018.205

1.
中国石油勘探开发研究院西北分院, 甘肃兰州 730020
2.
中国石油尼罗河公司, 苏丹喀土穆 10687

基金项目:

国家重大科技专项 2011ZX0502901

详细信息

作者简介:
史忠生(1978-), 男, 高级工程师, 博士, 主要从事裂谷盆地石油地质综合研究与油气勘探方面的工作

中图分类号: P544+.4
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出版历程
- 收稿日期: 2018-11-30
- 刊出日期: 2019-02-15

Analogy between Melut Basin of Central Africa and Rift Basins of East China and Implication

1.
Research Institute of Petroleum Exploration & Development-Northwest, PetroChina, Lanzhou 730020, China
2.
CNPC International(Nile) Limited, Khartoum 10687, Sudan

摘要

摘要: Melut盆地为中非地区重要的含油气裂谷盆地，具被动裂谷成盆特征，处于区域构造勘探向"三新领域"勘探的转型阶段，油气富集规律尚不十分清楚，通过开展Melut盆地与我国东部主动裂谷盆地的类比分析，有助于深化盆地成藏认识，推进勘探转型.研究表明，Melut盆地北部具被动裂谷成盆特征，发育大型富油凹陷，形成以古近系跨时代成藏组合为主，近源白垩系成藏组合为辅的油气富集特点，古近系Yabus组上段跨时代岩性油藏与近源白垩系Galhak组断块油藏是北部深化勘探的重要领域；盆地中南部具被动裂谷与主动裂谷的叠加演化过程，与海拉尔盆地相似，具小型断陷沉积充填与成藏特征，近源成藏组合是有利的勘探对象，继承性洼槽内低凸起、凹陷间断裂隆起带及缓坡断层坡折带是有利的成藏构造带.该研究深化了Melut盆地成藏认识，明确了盆地南北具有不同的成盆机制与成藏特征，对推动北部成熟探区深化勘探与中南部低探区勘探突破具有重要意义.
- 中非 /
- Melut盆地 /
- 被动裂谷盆地 /
- 渤海湾盆地 /
- 海拉尔盆地 /
- 类比
Abstract: Melut Basin is an important petroliferous passive rift basin of Central Africa, and now it is in the midst of transformation from negional structure exploration to new formations, new domains and new areas exploration without very clear understandings of hydrocarbon accumulation. By analogy between Melut passive rift basin and active rift basins of East China, the geological understandings of hydrocarbon accumulation in Melut Basin are deepened, and the exploration transformation will be promoted. The analogy shows that, the North Melut Sub-basin has typical passive rift basin character, and developed large oil-rich sag with the primary "far-source" play of Paleogene and secondary "near-source" play of Cretaceous. The "far-source" lithological reservoir of Upper Yabus Fm. in Paleogene and Cretaceous faulted block reservoirs of Galhak Fm. near source rock are two important domains of fine exploration in North Melut Sub-basin. The Central-South Melut Sub-basins experienced overlapping tectonic evolution process of passive and active rift basin, with the sediments filling and play features of small faulted depression, which is similar with the Hailar Basin, and the "near-source" reservoir-caprock assemblages are favorable exploration targets, inherited low uplifts in sags, faulted uplifts between sags, and faulted slope break belts in gentle slope are favorable hydrocarbon accumulation structural zones. The study deepens the understandings of hydrocarbon accumulation in Melut Basin, and it is suggested that the North and Central-South Melut Sub-basins have different basin forming mechanisms and hydrocarbon accumulation characteristics, which is of great importance to promote the fine exploration in mature exploration areas of North Melut Sub-basin and exploration breakthrough in low exploration areas of Central-South Melut Sub-basins.
- Central Africa /
- Melut Basin /
- passive rift basin /
- Bohai Bay Basin /
- Hailaer Basin /
- analogy

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图 1 中非剪切带及中非、西非裂谷系分布

据Genik(1993)修改

Fig. 1. Central Africa shear zone and Central-West Africa rift system

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图 2 Melut盆地构造单元与地层综合柱状图

a.Melut盆地构造单元图；b.Melut盆地地层综合柱状图

Fig. 2. Structural units and strata columnof Melut Basin

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图 3 渤海湾盆地区域位置

据张云银(2002)修改

Fig. 3. Location of Bohai Bay Basin

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图 4 Melut盆地北部与渤海湾盆地沉积充填与成藏模式图

a.Melut盆地北部沉积充填与成藏模式，剖面S₁_-S′₁的位置见图 2；b.渤海湾盆地沉积充填与成藏模式, 据赵政璋等(2005)修改

Fig. 4. Depositional feature and accumulation models of the North Melut Sub-basin and Bohai Bay Basin

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图 5 渤海湾盆地油气勘探阶段划分

据赵政璋等(2005)修改

Fig. 5. The stage of petroleum exploration in Bohai Bay Basin

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图 6 Melut盆地北部Yabus与Galhak组孔隙度与油层厚度与油层日产量关系图

a.Yabus与Galhak组孔隙度随深度变化关系；b.Yabus与Galhak原油日产量与油层孔隙度和厚度关系

Fig. 6. The relationship among porosity, daily production, and thickness of oil beds of Yabus and Galhak Fm. in North Melut Sub-basin

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图 7 Melut盆地北部凹陷Yabus组岩性与油层分布特征

剖面S₂S′₂的位置见图 2

Fig. 7. Lithology and oil layer distribution characters of Yabus Fm. in North Melut Sub-basin

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图 8 北部凹陷Yabus组上段油层厚度及油层产量特征

a.Yabus组上段油层厚度特征；b.Yabus组上段油层日产量特征

Fig. 8. Oil layer thickness and daily production characteristics of Upper Yabus Fm. in North Melut Sub-basin

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图 9 Galhak组沉积特征及油层日产量与油层厚度及孔隙度关系

a.Galhak组沉积剖面，剖面位置见图 2；b. Galhak组油层日产量与油层厚度及孔隙度关系图

Fig. 9. Depositional feature and relationship among daily production, oil layer thickness and porosity of Galhak Fm.

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图 10 中蒙边界地区简略构造图(a)与Melut盆地南部凹陷晚期反转构造与火成岩剖面地震特征(b)

Fig. 10. Tectonic sketch map of the China-Mongolia border region (a) and the late inversion structureand volcanic seismic character in South Melut Sub-basin (b)

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图 11 海拉尔盆地构造单元、地层柱状图及贝尔凹陷成藏模式

a.海拉尔盆地构造单元及贝尔凹陷成藏模式图；b.海拉尔盆地地层柱状图；据付晓飞等(2012)、平贵东等(2013)、白雪峰(2014)修改

Fig. 11. Structure units and stratigraphic column of Hailar Basin and accumulation model of Beier Depression

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图 12 乌尔逊-贝尔凹陷烃源灶与油藏叠合图

据吴海波等(2015)修改

Fig. 12. Overlapping map of hydrocarbon source kitchen and oil reservoirs of Wuerxun and Beier sags

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图 13 海拉尔盆地与Melut盆地中南部主要含油气构造样式与成藏模式

a~b.海拉尔盆地主要含油气构造样式与成藏模式，据吴海波等(2015)修改，剖面位置见图 12；d~f. Melut盆地中南部主要含油气构造样式与成藏模式，剖面位置见图 2

Fig. 13. The main oil and gas structural styles and accumulation models of Hailaer and Central-South Melut Basin

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图 14 Melut盆地北部与中南部Adar组岩性特征

a.北部Adar组岩性特征；b.中南部Adar组岩性特征；剖面S₇-S′₇和S₈-S′₈的位置见图 2

Fig. 14. Lithological characters of Adar Fm. inthe North and Central-South Melut Sub-basin

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