地球化学
地毬化學
지구화학
GEOCHIMICA
2014年
3期
276-286
,共11页
佘敏%寿建峰%沈安江%朱吟%郑兴平
佘敏%壽建峰%瀋安江%硃吟%鄭興平
사민%수건봉%침안강%주음%정흥평
碳酸盐岩%有机酸%溶蚀机理%模拟实验%溶解速率%微观溶蚀特征
碳痠鹽巖%有機痠%溶蝕機理%模擬實驗%溶解速率%微觀溶蝕特徵
탄산염암%유궤산%용식궤리%모의실험%용해속솔%미관용식특정
carbonate rock%organic acid%dissolution mechanism%simulation experiment%dissolution rate%micro-corrosion characteristics
通过细粉晶白云岩、泥晶灰岩、泥灰岩和含生屑泥晶灰岩与2 ml/L乙酸溶液的溶解动力学实验,研究了从表生到深埋藏环境下有机酸对碳酸盐岩储层的改造作用机理。结果显示,四种类型碳酸盐岩的溶解速率在3.34×10-9~2.27×10-8 mol/(cm2·s)之间,并且溶解速率随埋藏深度(地层温度和地层压力)的增加而增大。从表生到中埋藏环境下,泥晶灰岩、泥灰岩和含生屑泥晶灰岩的溶解速率大于细粉晶白云岩;在深埋藏环境下,细粉晶白云岩的溶解速率逐渐与泥晶灰岩、泥灰岩和含生屑泥晶灰岩的一致,这揭示出在相对高温高压下,埋藏有机酸性流体对碳酸盐岩的溶蚀改造作用中,碳酸盐岩的溶蚀速率与其方解石和白云石含量的关系并不大。反应前后样品表面的扫描电子显微镜分析结果表明,细粉晶白云岩的晶间溶孔、晶内溶孔更加发育。细粉晶白云岩中白云石溶解成蜂窝状溶解孔,晶间缝溶蚀加大且相互连通,这种微观溶蚀特征更有利于油、气的储集及运移。结合岩石的溶蚀速率及其微观溶蚀演化特征,指出碳酸盐岩矿物成分和含量固然对其溶蚀作用具有控制影响,但是碳酸盐岩溶蚀形成的孔隙类型及其连通性能与碳酸盐岩有利储层形成的关系更为密切。
通過細粉晶白雲巖、泥晶灰巖、泥灰巖和含生屑泥晶灰巖與2 ml/L乙痠溶液的溶解動力學實驗,研究瞭從錶生到深埋藏環境下有機痠對碳痠鹽巖儲層的改造作用機理。結果顯示,四種類型碳痠鹽巖的溶解速率在3.34×10-9~2.27×10-8 mol/(cm2·s)之間,併且溶解速率隨埋藏深度(地層溫度和地層壓力)的增加而增大。從錶生到中埋藏環境下,泥晶灰巖、泥灰巖和含生屑泥晶灰巖的溶解速率大于細粉晶白雲巖;在深埋藏環境下,細粉晶白雲巖的溶解速率逐漸與泥晶灰巖、泥灰巖和含生屑泥晶灰巖的一緻,這揭示齣在相對高溫高壓下,埋藏有機痠性流體對碳痠鹽巖的溶蝕改造作用中,碳痠鹽巖的溶蝕速率與其方解石和白雲石含量的關繫併不大。反應前後樣品錶麵的掃描電子顯微鏡分析結果錶明,細粉晶白雲巖的晶間溶孔、晶內溶孔更加髮育。細粉晶白雲巖中白雲石溶解成蜂窩狀溶解孔,晶間縫溶蝕加大且相互連通,這種微觀溶蝕特徵更有利于油、氣的儲集及運移。結閤巖石的溶蝕速率及其微觀溶蝕縯化特徵,指齣碳痠鹽巖礦物成分和含量固然對其溶蝕作用具有控製影響,但是碳痠鹽巖溶蝕形成的孔隙類型及其連通性能與碳痠鹽巖有利儲層形成的關繫更為密切。
통과세분정백운암、니정회암、니회암화함생설니정회암여2 ml/L을산용액적용해동역학실험,연구료종표생도심매장배경하유궤산대탄산염암저층적개조작용궤리。결과현시,사충류형탄산염암적용해속솔재3.34×10-9~2.27×10-8 mol/(cm2·s)지간,병차용해속솔수매장심도(지층온도화지층압력)적증가이증대。종표생도중매장배경하,니정회암、니회암화함생설니정회암적용해속솔대우세분정백운암;재심매장배경하,세분정백운암적용해속솔축점여니정회암、니회암화함생설니정회암적일치,저게시출재상대고온고압하,매장유궤산성류체대탄산염암적용식개조작용중,탄산염암적용식속솔여기방해석화백운석함량적관계병불대。반응전후양품표면적소묘전자현미경분석결과표명,세분정백운암적정간용공、정내용공경가발육。세분정백운암중백운석용해성봉와상용해공,정간봉용식가대차상호련통,저충미관용식특정경유리우유、기적저집급운이。결합암석적용식속솔급기미관용식연화특정,지출탄산염암광물성분화함량고연대기용식작용구유공제영향,단시탄산염암용식형성적공극류형급기련통성능여탄산염암유리저층형성적관계경위밀절。
This contribution aim to study the control factors and mechanism of carbonate rocks dissolution in organic acid under the conditions from epigenesist to deep burial digenesis environments. The reactions of acetic acid (initial 2 ml/L) with finely crystalline dolostone, bicritic limestone, barlstone, and bioclasts packstone were investigated using continuous flow column reactor system. The results indicate that dissolution rates of carbonate rocks are between 3.34×10-9-2.27×10-8 mol/(cm2·s), and dissolution rates increase as the burial depth increasing. In the conditions from epigenesist to middle burial digenesis environments, the dissolution rates of bicritic limestone, barlstone, and bioclasts packstone are larger than that of finely crystalline dolostone. In the condition of deep burial environments, the dissolution rates of bioclasts packstone, bicritic limestone, barlstone, and finely crystalline dolostone are basically the same. The dissolution rates of carbonate rocks indicate that the content of calcite and dolomite in the carbonate rocks is not the main control factor for burial dissolution of carbonate rocks in organic acid fluid. Scanning Electron Microscope images and EDX spectrum were used to analyse the carbonate rocks before and after experiment. The results indicate inter-crystal and intra-crystal dissolution pores of finely crystalline dolostone were more developed. The dolomites of finely crystalline dolostone were eroded into honeycomb-like pores on the rock surface. The inter-crystal fractures of dolomite were enlarged by dissolution and became interconnected. The micro-corrosion characteristics of finely crystalline dolostone are better for reservoir and permeability of oil and gas. The results of dissolution rates and micro-corrosion characteristics of finely crystalline dolostone, bicritic limestone, barlstone, and bioclasts packstone in acetic acid solution show that the mineral composition and content of carbonate rocks control the dissolution process. There is a close relationship between the type of dissolution pore and connectivity for carbonate rocks and carbonate reservoir formation.