[1]郑元财,易娟子,吴 峰.断裂输导油气能力的评价方法及其应用——以高邮凹陷汉留断裂带为例[J].复杂油气藏,2019,12(04):1-7.[doi:10.16181/j.cnki.fzyqc.2019.04.001]
 ZHENG Yuancai,YI Juanzi,WU Feng.Assessment method for oil and gas transport capability of faults and its application:taking Hanliu fault zone in Gaoyou Sag as an example[J].Complex Hydrocarbon Reservoirs,2019,12(04):1-7.[doi:10.16181/j.cnki.fzyqc.2019.04.001]
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断裂输导油气能力的评价方法及其应用——以高邮凹陷汉留断裂带为例()
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《复杂油气藏》[ISSN:1674-4667/CN:31-2019/TQ]

卷:
12卷
期数:
2019年04期
页码:
1-7
栏目:
油气勘探
出版日期:
2019-12-25

文章信息/Info

Title:
Assessment method for oil and gas transport capability of faults and its application:taking Hanliu fault zone in Gaoyou Sag as an example
作者:
郑元财1易娟子2吴 峰1
1.中国石化江苏油田分公司勘探开发研究院,江苏 扬州225009; 2.中国石油西南油气田分公司重庆气矿,重庆 400707
Author(s):
ZHENG Yuancai1YI Juanzi2WU Feng1
1.Exploration and Development Research Institute of Jiangsu Oilfield Company,SINOPEC,Yangzhou 225009,China; 2.Chongqing Gas Mine,Southwest Oil and Gas Field Company of PetroChina,Chongqing 400707,China
关键词:
断裂输导 构造转换带 成藏耦合 优势通道 高邮凹陷
Keywords:
fracture conduction tectonic transition zone coupling of hydrocarbon accumulation Gaoyou Sag
分类号:
TE122
DOI:
10.16181/j.cnki.fzyqc.2019.04.001
文献标志码:
A
摘要:
以断裂为沟通油气运移通道的下生上储式油藏,识别断裂的优势运移通道是寻找富集油藏的关键。通过吸收前人对断裂输导的研究成果和分析断裂的时空演化特征,认为成藏期断裂活动强度、成藏期断层之间的构造转换带、断面输导脊是影响油气输导的三个关键参数,并形成以其为评价参数的油气输导叠合评价法,该方法将断层输导性能划分为Ⅰ、Ⅱ、Ⅲ、Ⅳ四个等级,其中Ⅰ类最有利。将该方法应用在高邮凹陷汉留断裂带断裂优势通道的评价上,评价结果表明:YAN地区汉留断裂带发育多处Ⅰ、Ⅱ类优势油气输导通道,Ⅰ、Ⅱ类优势通道的发育部位与汉留断层上升盘油气的分布吻合度较好,可指导该区的勘探。
Abstract:
For the underlying and upper reservoirs where faults communicate oil and gas channels, the key to find enriched reservoirs is to identify the dominant migration pathways of faults. Based on the research results of the predecessors, and analyzing the temporal and spatial evolution characteristics of faults, it is considered that the three key influencing factors on oil and gas transmission are the intensity of faults before reservoir formation, the structural transition zone between faults before reservoir formation, and the development location of transporting ridges of faults, and it is formed the evaluation method of oil and gas transporting overlap based on these factors. The fault transport capacity are divided by the method into four grades ofⅠ, Ⅱ,Ⅲand Ⅳ,in which Ⅰis the best beneficial.The method has been applied in the evaluation of the dominant oil and gas transmission channels in the Hanlu fault zone of Gaoyou Sag. The evaluation results showed that Yong’an and other dominant oil and gas transmission channels are developed in the Hanlu fault zone, and the location of the dominant oil and gas transmission channels coincides well with the distribution of oil and gas in the hanging wall of the Hanliu fault, which can guide the exploration practice in this area.

参考文献/References:

[1] SIBSON R H,MOORE G F,RANKIN A H.Seimic pumping.Ahydrothermalfluids transport mechanism[M].Journal of the GeologicalSociety,1975,131:653-659.
[2] 阎福礼,贾东,卢华复,等.东营凹陷油气运移的地震泵作用[J].石油与天然气地质,1999,20(4):295-298.
[3] 闻竹,付晓飞,吕延防.断层封闭性评价及断圈含油气预测[J].中南大学学报(自然科学版),2016,47(4):1209-1217.
[4] 付晓飞,许鹏,魏长柱,等.张性断裂带内部结构特征及油气运移和保存研究[J].地学前缘,2012,19(6):200-212.
[5] 王海学,吕延防,付晓飞,等.裂陷盆地转换带形成演化及其控藏机理[J].地质科技情报,2013,32(4):102-109.
[6] 孙同文,付广,吕延防,等.断裂输导流体的机制及输导形式探讨[J].地质论论,2012,58(6):1081-1089.
[7] 孙永河,付晓飞,吕延防,等.地震泵抽吸作用与油气运聚成藏物理模拟[J].吉林大学学报(地球科学学版),2007,37(1):98-104.
[8] 付立新,王东林,肖玉永.伸展断裂作用对油气二次运移的影响[J].石油大学学报(自然科学版),2000,24(4):71-74.
[9] 李明诚.石油与天然气运移研究综述[J].石油勘探与开发,2000,27(4):3-10.
[10] 付广,韩刚,李世朝.断裂侧接输导油气运移部位预测方法及其应用[J].石油地球物理勘探,2017,52(6):1298-1304.
[11] 鲁兵,陈章明,关德范,等.断面活动特征及对油气的封闭作用[J].石油学报,1996,17(53):33-38
[12] 姜贵璞,付广,孙同文.利用地震资料确定油源断裂输导油气能力及油气富集的差异性[J].地球物理学进展,2017,32(1):160-166.
[13] 宁飞,汤良杰,朱传玲,等.挤压区局部构造转换带类型及石油地质意义[J].现代地质,2009.23(3):394-400.
[14] DAHLSTROM C D A.Structural geology in the eastern margin of the Canadian Rock Mountains[J].Bulletin of Canadian Petroleum Geology,1970,18:332-406.
[15] 漆家福,夏义平,杨桥.油区构造解析[M].北京:石油工业出版社,2006:40-19.
[16] MORLEY C K, NELSON R A,PATTON T L,et al. East african rift system and the irrelevance tohydrocarbon exploration in rifts[J].AAPG Bulletin,1990,74(8):1234-1253.
[17] PEACOCKk D C P,SANDERSON D J.Displacements segment linkage and relay ramps in normal fault zones[J].Journal of Structral Geology,1991,13:721-733.
[18] PEACLCK D C P,SANDERSON D J.Geometry and development of relay ramps in normal fault systems[J].AAPG Bulletin,1994,78(2):147-165.
[19] DAVID M,DUTTON,BRUCE D,et al.Four-dimensional analysis of the Semborelay system, offshore Angola: Implications for fault growth in salt-detached settings[J].AAPG Bulletin,2009,93(6):763-794.
[20] CHAPMAN T J,MENEILLY A W.The displacement patterns associated with a reverse-reactivated, normal growth fault[C]//ROBERTS A,YIELDING G,FREEMAN B.Geometry of normal faults.Geological Society London Special Publications,1991,56:183-191.
[21] 尹鹤.应用落差研究真武断裂带西部生长断层[J].西部探矿工程,2015,2:55-58.
[22] 李勤英,罗凤芝,苗翠芝.断层滑动速率研究方法及应用探讨[J].断块油气田,1997,7(2):15-17.
[23] LI QY,LUO FZ,MIAO CZ.Discussion on Research Method and Application of Fault Slip Rate [J].Fault-Block Oil and Gas Field,1997,7(2):15-17.
[24] 赵勇,戴俊生.应用落差法研究生长断层[J].石油勘探与开发,2003,3(13):13-15.
[25] HINDLE A D.Petroleum migration pathways and charge concentration a three-dimensional mdel[J].AAPG Bulletin,1997,81(9):1451-1481.
[26] 刘玉瑞.苏北盆地与南黄海盆地中—新生界成烃对比浅析[J].石油实验地质,2010,32(6):541-551.

备注/Memo

备注/Memo:
收稿日期:2019-04-11; 改回日期:2019-10-11。
第一作者简介:郑元财(1979—),副研究员,综合地质研究方向。E-Mail:zhengyc.jsyt@sinopec.com。
基金项目:中石化集团公司项目《苏北盆地油气聚集规律及精细评价关键技术》基金资助项目(ZDP17010)。
更新日期/Last Update: 2019-12-30