石油与天然气地质2025,Vol.46Issue(3):967-982,16.DOI:10.11743/ogg20250318
CO2-盐水-砂砾岩作用机理与矿物成分、流体赋存及孔隙变化特征
Mechanisms behind CO2-brine-Sandy Conglomerate interactions and resulting variations in mineral components,fluid occurrence,and pores:A case study of the Mahu Sag,Junggar Basin
摘要
Abstract
Tight Sandy Conglomerate reservoirs in the Mahu Sag,Junggar Basin exhibit extreme heterogeneity,posing significant challenges to the field tests and prediction of the CO2 sequestration performance following CO2 flooding.Understanding the mechanisms underlying CO2-brine-Sandy Conglomerate interactions is crucial to evaluating the CO2 sequestration performance following reservoir development.Based on CO2-brine saturation experiments and data from integrated quantitative evaluation of minerals by scanning electron microscopy(SEM),SEM-based quantitative evaluation of minerals(QEMSCAN),micro-CT scanning,and nuclear magnetic resonance(NMR)spectroscopy,we investigate mechanisms underlying CO2-brine-Sandy Conglomerate interactions and resulting variations in the mineral components,fluid occurrence,and pores in tight Sandy Conglomerate reservoirs of the Mahu Sag.The results indicate that CO2-brine-Sandy Conglomerate interactions led to the dissolution of rock minerals.This mineral dissolution and subsequent migration resulted in elevated average pore-throat sizes and enhanced pore connectivity in cores.The X-ray diffraction(XRD)analysis reveals that the interactions increased albite and illite contents by 3.20%and 2.32%,respectively,while producing minimal impact on quartz content.SEM analysis results demonstrate that CO2 soaking led to an increase in both the quantity and width of grain-edge fractures,as well as the formation of new lateral fractures.The carbonate and feldspar dissolution generates substantial intragranular micropores and microfractures,with these microfractures propagating along cleavages.NMR experiment results reveal that saturated water primarily occurs as clay-bound water,capillary-bound water,and movable water in the cores.CO2 soaking contributes to the enhanced content and expanded distribution range of saturated water in the pores,with movable water in macropores changing the most significantly.The research results highlight the complexity of CO2 interactions in Sandy Conglomerate reservoirs,which is of great significance for guiding the field test effectiveness of CO2 storage after flooding in the Mahu Sag Sandy Conglomerate reservoirs.关键词
核磁共振/分形维数/孔隙结构/二氧化碳封存/砂砾岩/玛湖凹陷/准噶尔盆地Key words
nuclear magnetic resonance(NMR)/fractal dimension/pore structure/CO2 sequestration/Sandy Conglomerate/Mahu depression/Junggar Basin分类
能源科技引用本文复制引用
杨柳,公飞,姜晓宇,刘朝阳,董广涛,蔡嘉伟..CO2-盐水-砂砾岩作用机理与矿物成分、流体赋存及孔隙变化特征[J].石油与天然气地质,2025,46(3):967-982,16.基金项目
国家自然科学基金面上项目(52374014). (52374014)
