石油与天然气地质
石油與天然氣地質
석유여천연기지질
OIL & GAS GEOLOGY
2009年
5期
548-555,565
,共9页
卞从胜%王红军%汪泽成%李永新%朱如凯%刘柳红
卞從勝%王紅軍%汪澤成%李永新%硃如凱%劉柳紅
변종성%왕홍군%왕택성%리영신%주여개%류류홍
大面积成藏%主控因素%须家河组%川中地区%四川盆地
大麵積成藏%主控因素%鬚傢河組%川中地區%四川盆地
대면적성장%주공인소%수가하조%천중지구%사천분지
massive accumulation%controlling factor%Xujiahe Formation%central Sichuan area%Sichuan Basin
川中三叠系须家河组地层具有砂泥岩交互、大面积分布的特征,已发现的广安、合川、八角场等大型气田以及充西等含气构造.这套含气组合平面上分布于川中地区各个不同的构造区域,纵向上各储层段交互发育.它们成藏背景相似,但又相互独立,互不连通,表现为大面积成藏的地质特征.通过对须家河组成藏地质特征的深入分析认为,大面积成藏的主控因素包括:①平缓构造背景下,大型开放式浅水湖盆广泛发育煤系与砂岩的交互组合,是大面积成藏的基础;②优质储层的广泛分布,是大面积成藏的重要条件,主要受早印支期古构造、沉积微相以及裂缝的联合控制;③白垩纪末盆地的整体抬升,天然气发生膨胀排烃以及储层的分隔化对气藏的保存作用是大面积成藏的重要机制.
川中三疊繫鬚傢河組地層具有砂泥巖交互、大麵積分佈的特徵,已髮現的廣安、閤川、八角場等大型氣田以及充西等含氣構造.這套含氣組閤平麵上分佈于川中地區各箇不同的構造區域,縱嚮上各儲層段交互髮育.它們成藏揹景相似,但又相互獨立,互不連通,錶現為大麵積成藏的地質特徵.通過對鬚傢河組成藏地質特徵的深入分析認為,大麵積成藏的主控因素包括:①平緩構造揹景下,大型開放式淺水湖盆廣汎髮育煤繫與砂巖的交互組閤,是大麵積成藏的基礎;②優質儲層的廣汎分佈,是大麵積成藏的重要條件,主要受早印支期古構造、沉積微相以及裂縫的聯閤控製;③白堊紀末盆地的整體抬升,天然氣髮生膨脹排烴以及儲層的分隔化對氣藏的保存作用是大麵積成藏的重要機製.
천중삼첩계수가하조지층구유사니암교호、대면적분포적특정,이발현적엄안、합천、팔각장등대형기전이급충서등함기구조.저투함기조합평면상분포우천중지구각개불동적구조구역,종향상각저층단교호발육.타문성장배경상사,단우상호독립,호불련통,표현위대면적성장적지질특정.통과대수가하조성장지질특정적심입분석인위,대면적성장적주공인소포괄:①평완구조배경하,대형개방식천수호분엄범발육매계여사암적교호조합,시대면적성장적기출;②우질저층적엄범분포,시대면적성장적중요조건,주요수조인지기고구조、침적미상이급렬봉적연합공제;③백성기말분지적정체태승,천연기발생팽창배경이급저층적분격화대기장적보존작용시대면적성장적중요궤제.
The Triassic Xujiahe Formation (T_3x) in central Sichuan Basin features in interbeded sandstone and mudstone and extensive distribution.Many gas fields (e.g.,Guang'an,Hechuan and Bajiaochang) and gas-bearing structures (e.g.,Chongxi) have been found in this formation.Horizontally,this gas-bearing combination is distributed in different structural zones; vertically,it has many alternating intervals of reservoirs.These reservoirs have similar pooling settings,but they are separated from each other with no communication.According to the analyses of geological features for gas accumulation in T3x,the main factors controlling massive gas accumulation are considered as the followings: 1)development of alternating coal bed and sandstone combinations in a large open shallow-water lacustrine basin under gentle structural settings; 2)the wide distribution of quality re-servoirs under the joint control of paleotectonics,sedimentary micro-facies and fractures in the Indo-Chinese epoch;3)overall uplifting of the Sichuan Basin at the end of the Cretaceous,gas expulsion through expansion,and reservoir compartmentalization.
