现代地质
現代地質
현대지질
GEOSCIENCE-JOURNAL OF GRADUATE SCHOOL CHINA UNIVERSITY OF GEOSCIENCES
2014年
3期
592-603
,共12页
赵泽辉%孙平%罗霞%徐淑娟%姜晓华%程宏岗%刘金城
趙澤輝%孫平%囉霞%徐淑娟%薑曉華%程宏崗%劉金城
조택휘%손평%라하%서숙연%강효화%정굉강%류금성
松辽盆地%深层断陷群%控陷断裂%火山岩大气田形成条件%勘探实践
鬆遼盆地%深層斷陷群%控陷斷裂%火山巖大氣田形成條件%勘探實踐
송료분지%심층단함군%공함단렬%화산암대기전형성조건%감탐실천
Songliao basin%deep fault depressions%faults controlled fault depression%conditions of giant vol-canic gas field%exploration practice
松辽盆地深层是由30多个孤立的断陷组成的断陷群,火山岩气藏是深层勘探的主要气藏类型。以断陷盆地火山岩大气田形成条件为主线,从深层断陷形成的特征分析着手,通过剖析控源及控藏因素,总结断陷盆地大气田形成条件。指出NNE-NE和NNW-NW两组控陷断裂体系共同控制深层断陷群的形成和展布,断陷沿控陷断裂方向呈带状展布。断陷内火山机构具有明显受断裂控制的不对称特征,沿断裂走向呈条带状分布。每个断陷通常由一个或多个断槽组成,断槽控制烃源岩的分布并自成含气系统,生烃断槽和火山岩在空间的有利配置是形成气藏的关键。环槽富集是深层断陷火山岩气藏最基本的规律,由于断裂控制了断陷、断槽、火山岩的形成分布,改善了油气运聚的通道条件,紧邻生烃断槽的断裂构造带是断陷内天然气有利富集区带;因此深部断裂控制了断陷火山岩气田的区域分布。勘探实践更进一步证明:对于断陷湖盆油气勘探,生烃主断槽是评价和勘探的关键单元;只要生烃断槽优质烃源岩发育,烃源岩与火山岩空间配置关系有利,对于“小而富”的中小型断陷(面积小于3000 km2),也可以形成火山岩大气田(探明地质储量大于300×108 m3),这些认识推进了勘探思路由寻找大湖盆大断陷到寻找生烃主断槽的转变。
鬆遼盆地深層是由30多箇孤立的斷陷組成的斷陷群,火山巖氣藏是深層勘探的主要氣藏類型。以斷陷盆地火山巖大氣田形成條件為主線,從深層斷陷形成的特徵分析著手,通過剖析控源及控藏因素,總結斷陷盆地大氣田形成條件。指齣NNE-NE和NNW-NW兩組控陷斷裂體繫共同控製深層斷陷群的形成和展佈,斷陷沿控陷斷裂方嚮呈帶狀展佈。斷陷內火山機構具有明顯受斷裂控製的不對稱特徵,沿斷裂走嚮呈條帶狀分佈。每箇斷陷通常由一箇或多箇斷槽組成,斷槽控製烴源巖的分佈併自成含氣繫統,生烴斷槽和火山巖在空間的有利配置是形成氣藏的關鍵。環槽富集是深層斷陷火山巖氣藏最基本的規律,由于斷裂控製瞭斷陷、斷槽、火山巖的形成分佈,改善瞭油氣運聚的通道條件,緊鄰生烴斷槽的斷裂構造帶是斷陷內天然氣有利富集區帶;因此深部斷裂控製瞭斷陷火山巖氣田的區域分佈。勘探實踐更進一步證明:對于斷陷湖盆油氣勘探,生烴主斷槽是評價和勘探的關鍵單元;隻要生烴斷槽優質烴源巖髮育,烴源巖與火山巖空間配置關繫有利,對于“小而富”的中小型斷陷(麵積小于3000 km2),也可以形成火山巖大氣田(探明地質儲量大于300×108 m3),這些認識推進瞭勘探思路由尋找大湖盆大斷陷到尋找生烴主斷槽的轉變。
송료분지심층시유30다개고립적단함조성적단함군,화산암기장시심층감탐적주요기장류형。이단함분지화산암대기전형성조건위주선,종심층단함형성적특정분석착수,통과부석공원급공장인소,총결단함분지대기전형성조건。지출NNE-NE화NNW-NW량조공함단렬체계공동공제심층단함군적형성화전포,단함연공함단렬방향정대상전포。단함내화산궤구구유명현수단렬공제적불대칭특정,연단렬주향정조대상분포。매개단함통상유일개혹다개단조조성,단조공제경원암적분포병자성함기계통,생경단조화화산암재공간적유리배치시형성기장적관건。배조부집시심층단함화산암기장최기본적규률,유우단렬공제료단함、단조、화산암적형성분포,개선료유기운취적통도조건,긴린생경단조적단렬구조대시단함내천연기유리부집구대;인차심부단렬공제료단함화산암기전적구역분포。감탐실천경진일보증명:대우단함호분유기감탐,생경주단조시평개화감탐적관건단원;지요생경단조우질경원암발육,경원암여화산암공간배치관계유리,대우“소이부”적중소형단함(면적소우3000 km2),야가이형성화산암대기전(탐명지질저량대우300×108 m3),저사인식추진료감탐사로유심조대호분대단함도심조생경주단조적전변。
The deep zone of Songliao basin is made up of more than 30 separated fault depressions where vol-canic gas reservoir is the main exploration target.Starting from the analysis of the formation characteristics of deep fault depression and analyzing the factors of controlled source and controlled gas reservoir,the conditions of giant volcanic gas field in fault depressions are summarized for guiding the exploration.The comprehensive research suggested that the deep fault depressions are controlled by two faults system that are NNE-NE and NNW-NW strikes,along the strike direction of faults controlled fault depressions.The typical asymmetrical model of volcanic eruption pattern controlled by faults is characterized by one small-scale side on the higher part of faults and by the other large-scale side in the lower part of faults,as molten magma flowed from the top down, with zonal distribution along the strike direction of faults controlled fault depression.Generally,each fault depression is composed by one or more fault troughs which control the distribution of source rock,so each fault depression has its own independent petroleum system and the key factor of gas accumulation is favorable spatial configuration between fault troughs and volcanic rocks.The deep volcanic gas reservoirs are characterized by nearby distribution surrounding source rocks and main troughs.The faults controlled the formation and distribu-tion of fault depressions,fault troughs and volcanic rocks,and improved the channel conditions for oil-gas mi-gration and accumulation,which indicates fault structural zone close to hydrocarbon bearing troughs is gas en-richment region.In short,deep faults controlled regional distribution of giant volcanic gas field.Further explo-ration practice prove that:for oil and gas exploration of fault basins,main fault troughs which controlled hydro-carbon generation is the key unit for the evaluation and exploration.As long as the high quality hydrocarbon source rock are developed in the fault troughs,with good space configuration with volcanic rocks,small and me-dium sized fault depressions with area smaller than 3 ,000 km2 also can form giant volcanic gas field (proven geological reserves of more than 300 ×108 m3 ),which have presented as exploration strategy changed from searching for big lake basins or fault depressions to main hydrocarbon bearing troughs which need to be proved.
