大地构造与成矿学
大地構造與成礦學
대지구조여성광학
GETECTONICA ET METALLOGENIA
2015年
2期
260-272
,共13页
全夏韵%李祥权%任建业%程涛
全夏韻%李祥權%任建業%程濤
전하운%리상권%임건업%정도
三肇凹陷%多边形断层%扶杨油层%葡萄花油层%油气运移成藏
三肇凹陷%多邊形斷層%扶楊油層%葡萄花油層%油氣運移成藏
삼조요함%다변형단층%부양유층%포도화유층%유기운이성장
Sanzhao Sag%polygonal fault%Fuyang oil layer%Putaohua oil layer%oil migration and accumulation
松辽盆地青一段发育大量密集分布的小型张性断层系,其成因一直以来颇受争议。本文选取松辽盆地三肇凹陷为研究区,通过新连片三维地震剖面精细解释及沿层相干切片分析等手段,详细描述了三肇凹陷青一段密集张性断裂系统的剖面和平面特征,提出:①青一段张性断裂系主体为非构造成因的多边形断层,其成因可能是由青山口组青一段泥岩超压幕式排烃破裂所导致,同时盆地构造反转活动对断层发育特征具有重要影响;②凹陷内多边形断层主要发育于嫩江组沉积末期,明水组沉积末期盆地强烈构造反转致使早期形成的多边形断层再活动,且对部分多边形断层的发育进行改造;③多边形断层起到沟通青一段烃源岩和分别位于其上部与下部的葡萄花、扶杨2个油气储层的作用,是凹陷内油气成藏的重要运移通道;④嫩江组沉积末期,超压使油气通过多边形断层从青一段短距离向下部扶杨储层“倒灌”运聚成藏;明水组沉积末期,超压导致油气沿重新开启的多边形断层向上部葡萄花储层或向下部扶杨储层运移聚集形成油气藏,同时垂向延伸较长的多边形断层对下部扶杨油藏可能具有一定的破坏作用。
鬆遼盆地青一段髮育大量密集分佈的小型張性斷層繫,其成因一直以來頗受爭議。本文選取鬆遼盆地三肇凹陷為研究區,通過新連片三維地震剖麵精細解釋及沿層相榦切片分析等手段,詳細描述瞭三肇凹陷青一段密集張性斷裂繫統的剖麵和平麵特徵,提齣:①青一段張性斷裂繫主體為非構造成因的多邊形斷層,其成因可能是由青山口組青一段泥巖超壓幕式排烴破裂所導緻,同時盆地構造反轉活動對斷層髮育特徵具有重要影響;②凹陷內多邊形斷層主要髮育于嫩江組沉積末期,明水組沉積末期盆地彊烈構造反轉緻使早期形成的多邊形斷層再活動,且對部分多邊形斷層的髮育進行改造;③多邊形斷層起到溝通青一段烴源巖和分彆位于其上部與下部的葡萄花、扶楊2箇油氣儲層的作用,是凹陷內油氣成藏的重要運移通道;④嫩江組沉積末期,超壓使油氣通過多邊形斷層從青一段短距離嚮下部扶楊儲層“倒灌”運聚成藏;明水組沉積末期,超壓導緻油氣沿重新開啟的多邊形斷層嚮上部葡萄花儲層或嚮下部扶楊儲層運移聚集形成油氣藏,同時垂嚮延伸較長的多邊形斷層對下部扶楊油藏可能具有一定的破壞作用。
송료분지청일단발육대량밀집분포적소형장성단층계,기성인일직이래파수쟁의。본문선취송료분지삼조요함위연구구,통과신련편삼유지진부면정세해석급연층상간절편분석등수단,상세묘술료삼조요함청일단밀집장성단렬계통적부면화평면특정,제출:①청일단장성단렬계주체위비구조성인적다변형단층,기성인가능시유청산구조청일단니암초압막식배경파렬소도치,동시분지구조반전활동대단층발육특정구유중요영향;②요함내다변형단층주요발육우눈강조침적말기,명수조침적말기분지강렬구조반전치사조기형성적다변형단층재활동,차대부분다변형단층적발육진행개조;③다변형단층기도구통청일단경원암화분별위우기상부여하부적포도화、부양2개유기저층적작용,시요함내유기성장적중요운이통도;④눈강조침적말기,초압사유기통과다변형단층종청일단단거리향하부부양저층“도관”운취성장;명수조침적말기,초압도치유기연중신개계적다변형단층향상부포도화저층혹향하부부양저층운이취집형성유기장,동시수향연신교장적다변형단층대하부부양유장가능구유일정적파배작용。
Numerous small-scaled, extensional faults occur densely in the mudstone layer of the Qingshankou 1st member (Qn1) in Songliao Basin. Its attribute and genetic mechanism are highly concerned but still controversy. The high-resolution 3D seismic datasets of a new block that covers most of the Sanzhao sag of Songliao Basin is studied., The characteristics of the profile and plane geometry of the extensional fracture system in the Sanzhao sag were depicted in detail through fine seismic interpretation using coherent technology. Based o the results, we proposed that:(1) The extensional fault system is mainly polygonal fault, which probably resulted from rupture pressure related to the episodic hydrocarbon-expulsion from the mudstone of Qn1. However, the tectonic inversion in Songliao Basin may also contribute to the formation and development of the polygonal fault system;(2) The polygonal faults were mainly formed by the end of deposition period of the Nenjiang Formation, and some experienced vertical direction propagation caused by the strong tectonic inversion at the end of deposition period of the Mingshui Formation; (3) The polygonal faults connect the Qn1 hydrocarbon source rock with the underlying Fuyang oil layer and the overlying Putaohua oil layer, and thus are important migration channels for the oil and gas accumulation; (4) Until the end of deposition period of the Nenjiang Formation, hydrocarbon generated in the Qn1 mainly migrated downward into the underlying Fuyang oil layer via the small polygonal faults rather than upwards to the Putaohua oil layer. On the contrary, by the end of deposition period of the Mingshui Formation, the oils from Qn1 source rock can migrate either downward into the Fuyang oil layer or upward into the Putaohua oil layer. It is noteworthy that the vertical propagation of the polygonal faults induced by the tectonic inversion might also damage the Fuyang accumulations formed earlier.