现代地质
現代地質
현대지질
GEOSCIENCE-JOURNAL OF GRADUATE SCHOOL CHINA UNIVERSITY OF GEOSCIENCES
2014年
1期
197-207
,共11页
操应长%贾艳聪%王艳忠%马奔奔
操應長%賈豔聰%王豔忠%馬奔奔
조응장%가염총%왕염충%마분분
成岩流体%流体包裹体%油气充注%沙四上亚段%渤南洼陷
成巖流體%流體包裹體%油氣充註%沙四上亞段%渤南窪陷
성암류체%류체포과체%유기충주%사사상아단%발남와함
diagenetic fluid%fluid inclusion%hydrocarbon filling%Ess4%Bonan sag
渤南洼陷北带沙四上亚段在埋藏过程中经历了多期酸碱流体演化,同时经历了多期油气充注作用,导致储层物性经历了复杂的演化过程。对渤南洼陷北带沙四上亚段埋藏演化史、有机质热演化、膏盐层脱水等综合研究,结合各种烃类和盐水包裹体特征分析,确定了渤南洼陷北带沙四上亚段成岩流体演化序列:(1)沙四上亚段沉积时期气候干旱,原始地层水呈弱碱性。(2)开始沉积至距今42.5 Ma,有机质尚未成熟,地层流体仍保持弱碱性,成岩作用主要为压实排水作用,形成早期球粒状黄铁矿胶结物。(3)距今42.5~30 Ma,为有机酸控制下的酸性环境,发生长石溶解、石英加大。(4)距今30~24.6 Ma,有机酸发生脱羧,同时沙四上亚段顶部膏盐层脱出大量碱性水,使地层水pH值呈碱性,发生碳酸盐胶结和石英溶解,其中距今28.8~24.6 Ma,发生第一期油气充注;距今24.6~6 Ma,地层经历抬升及再沉降,在抬升过程中有机质再次生成有机酸,使地层水pH值呈酸性,发生第二期酸性溶解、石英加大,其中距今10~6 Ma,发生第二期油气充注。(5)距今6 Ma至现今,沙四上亚段膏盐层发生脱水,地层流体呈碱性,发育少量晚期黄铁矿胶结等。
渤南窪陷北帶沙四上亞段在埋藏過程中經歷瞭多期痠堿流體縯化,同時經歷瞭多期油氣充註作用,導緻儲層物性經歷瞭複雜的縯化過程。對渤南窪陷北帶沙四上亞段埋藏縯化史、有機質熱縯化、膏鹽層脫水等綜閤研究,結閤各種烴類和鹽水包裹體特徵分析,確定瞭渤南窪陷北帶沙四上亞段成巖流體縯化序列:(1)沙四上亞段沉積時期氣候榦旱,原始地層水呈弱堿性。(2)開始沉積至距今42.5 Ma,有機質尚未成熟,地層流體仍保持弱堿性,成巖作用主要為壓實排水作用,形成早期毬粒狀黃鐵礦膠結物。(3)距今42.5~30 Ma,為有機痠控製下的痠性環境,髮生長石溶解、石英加大。(4)距今30~24.6 Ma,有機痠髮生脫羧,同時沙四上亞段頂部膏鹽層脫齣大量堿性水,使地層水pH值呈堿性,髮生碳痠鹽膠結和石英溶解,其中距今28.8~24.6 Ma,髮生第一期油氣充註;距今24.6~6 Ma,地層經歷抬升及再沉降,在抬升過程中有機質再次生成有機痠,使地層水pH值呈痠性,髮生第二期痠性溶解、石英加大,其中距今10~6 Ma,髮生第二期油氣充註。(5)距今6 Ma至現今,沙四上亞段膏鹽層髮生脫水,地層流體呈堿性,髮育少量晚期黃鐵礦膠結等。
발남와함북대사사상아단재매장과정중경력료다기산감류체연화,동시경력료다기유기충주작용,도치저층물성경력료복잡적연화과정。대발남와함북대사사상아단매장연화사、유궤질열연화、고염층탈수등종합연구,결합각충경류화염수포과체특정분석,학정료발남와함북대사사상아단성암류체연화서렬:(1)사사상아단침적시기기후간한,원시지층수정약감성。(2)개시침적지거금42.5 Ma,유궤질상미성숙,지층류체잉보지약감성,성암작용주요위압실배수작용,형성조기구립상황철광효결물。(3)거금42.5~30 Ma,위유궤산공제하적산성배경,발생장석용해、석영가대。(4)거금30~24.6 Ma,유궤산발생탈최,동시사사상아단정부고염층탈출대량감성수,사지층수pH치정감성,발생탄산염효결화석영용해,기중거금28.8~24.6 Ma,발생제일기유기충주;거금24.6~6 Ma,지층경력태승급재침강,재태승과정중유궤질재차생성유궤산,사지층수pH치정산성,발생제이기산성용해、석영가대,기중거금10~6 Ma,발생제이기유기충주。(5)거금6 Ma지현금,사사상아단고염층발생탈수,지층류체정감성,발육소량만기황철광효결등。
With multi-period of acid-alkaline fluid evolution as well as multi-period of hydrocarbon charging during the burial,the reservoir physical property went through a complex evolution in the upper part of the fourth member of the Shahejie Formation (Ess4 )in the north zone of the Bonan sag.With the comprehensive analysis of burial history,the thermal evolution of organic matter and dehydration of gypsum-salt bed,combined with characteristics of different hydrocarbon inclusions and salt-water inclusions,the diagenetic sequence of Ess4 in the north zone of the Bonan sag is studied.During the deposition of Ess4,the original formation-water is of weak alkalescence because of the dry climate;from the beginning of the deposition of Ess4 to 42.5 Ma,the for-mation fluid keeps weak alkaline with immaturate organics,and the main type of diagenesis is compaction,and early spherulitic pyrites are formed.From 42.5 Ma to 30 Ma,the formation fluid becomes acid for the existence of organic acid,and feldspar dissolution and quartz overgrowth take place.From 30 Ma to 24.6 Ma,the dehy-dration with alkaline water of gypsum-salt bed in the top of Ess4 occurs as well as decarboxylation of organic acid, thus the formation water becomes alkaline,and carbonate cementation and quartz dissolution simultaneously take place.During this period the first phase of hydrocarbon filling takes place from 28.8 Ma to 24.6 Ma,and from 24.6 Ma to 6 Ma,the organic acid is generated for the second time resulting from the uplifting stratum,and the formation water becomes acid,so the second phase of acid dissolution and quartz overgrowth begins,and the second phase of hydrocarbon filling take place in the period of 1 0 Ma to 6 Ma.From 6 Ma till now,the dehydra-tion occurs again in gypsum-salt beds of Ess4 and the formation fluid becomes alkaline once more,so a few of lat-er pyrite cementation can be found.
