地质通报
地質通報
지질통보
GEOLOGICAL BULLETIN OF CHINA
2014年
11期
1842-1852
,共11页
姚泾利%李渭%王亚玲%姜亭%黄锦绣
姚涇利%李渭%王亞玲%薑亭%黃錦繡
요경리%리위%왕아령%강정%황금수
长101储层%成岩作用%成岩相带
長101儲層%成巖作用%成巖相帶
장101저층%성암작용%성암상대
Chang 101 reservoir%diagenesis%diagenetic facies
通过大量野外地质调查、钻井岩心观察和室内分析测试,对陕北地区长101储层的成岩作用和成岩相进行了研究。结果表明,研究区长101储层处于中成岩A期阶段,压实作用与碳酸盐、粘土(高岭石、伊利石)矿物胶结、浊沸石胶结和硅质胶结作用是造成储层原生孔隙丧失的主要原因;绿泥石胶结抑制孔隙充填,长石、浊沸石矿物的溶蚀作用使孔隙间的连通性得到改善,储层物性得到提高。成岩相类型可划分为8种,优质储层与成岩相关系密切,其中压实相、碳酸盐胶结相、粘土矿物胶结相、石英加大相、浊沸石充填相不利于储层的发育,而长石溶蚀相、绿泥石膜胶结相、浊沸石溶蚀相对储层物性的改善具有重要作用。
通過大量野外地質調查、鑽井巖心觀察和室內分析測試,對陝北地區長101儲層的成巖作用和成巖相進行瞭研究。結果錶明,研究區長101儲層處于中成巖A期階段,壓實作用與碳痠鹽、粘土(高嶺石、伊利石)礦物膠結、濁沸石膠結和硅質膠結作用是造成儲層原生孔隙喪失的主要原因;綠泥石膠結抑製孔隙充填,長石、濁沸石礦物的溶蝕作用使孔隙間的連通性得到改善,儲層物性得到提高。成巖相類型可劃分為8種,優質儲層與成巖相關繫密切,其中壓實相、碳痠鹽膠結相、粘土礦物膠結相、石英加大相、濁沸石充填相不利于儲層的髮育,而長石溶蝕相、綠泥石膜膠結相、濁沸石溶蝕相對儲層物性的改善具有重要作用。
통과대량야외지질조사、찬정암심관찰화실내분석측시,대협북지구장101저층적성암작용화성암상진행료연구。결과표명,연구구장101저층처우중성암A기계단,압실작용여탄산염、점토(고령석、이리석)광물효결、탁비석효결화규질효결작용시조성저층원생공극상실적주요원인;록니석효결억제공극충전,장석、탁비석광물적용식작용사공극간적련통성득도개선,저층물성득도제고。성암상류형가화분위8충,우질저층여성암상관계밀절,기중압실상、탄산염효결상、점토광물효결상、석영가대상、탁비석충전상불리우저층적발육,이장석용식상、록니석막효결상、탁비석용식상대저층물성적개선구유중요작용。
Based on large quantities of field geological investigation, core observation and laboratory analysis, the authors studied in detail the diagenesis and diagenetic facies of Chang 101 reservoir in northern Shaanxi. The results show that Chang 101 reservoir of the study area is at stage A of middle diagenesis phase. Compaction and cementation by carbonate, clay minerals (kaolinite, illite), laumonite and silicon are the main factors for the loss of reservoir primary porosity. Chlorite cementation can prevent the pore from being filled. Dissolution of feldspar and laumonite minerals improves connectivity between pores. Physical properties of the reservoir are improved by these factors. There are eight types of diagenetic facies in this area. High quality reservoir is closely related to the diagenetic facies. Compaction facies, carbonate cementation facies, clay mineral cementation facies, quartz overgrowth facies and laumonite filling facies are unfavorable for the development of high quality reservoir. On the contrary, feldspar dissolution facies, chlorite cementation facies and laumonite dissolution facies play an important role in improving the physical properties of the reservoir.