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煤岩孔隙结构特征及其对储层损害的影响

CHARACTERISTICS OF PORE STRUCTURE AND ITS IMPACT ON RESERVOIR DAMAGE MECHANISMS OF COAL BEDS

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【作者】 李前贵康毅力徐兴华徐进

【Author】 LI Qian-gui(Southwest Petroleum Institute, Nanchong Sichuan 637001, China), KANG Yi-li, XU Xing-hua, et al.

【机构】 西南石油学院石油工程学院中石化新星石油公司西南石油局中石化新星石油公司西南石油局 四川南充637001四川南充637001

【摘要】 煤岩特殊的孔隙结构及甲烷赋存和产出方式决定了其损害机理与常规储层存在明显差异。在此以六盘水地区亦资孔盆地二叠系煤岩气藏为对象 ,应用压汞和扫描电镜等手段 ,研究煤岩储层孔隙类型和孔隙结构特征 ,结合煤岩学、敏感性及工作液损害评价实验 ,探讨了煤岩气层损害机理。研究表明 ,煤岩中常见植物组织孔和气孔 ,裂缝发育 ,属双重孔隙介质 ,表现出很强的应力敏感性。工作液易通过天然裂缝系统侵入煤层中 ,导致裂缝内的固相沉积、水相圈闭和高分子处理剂吸附滞留损害。

【Abstract】 There are great differences in damage mechanism between coal-beds and conventional reservoirs owing to the unique characteristics of pore structure, gas storage and production processes in coal?beds. Coal?beds at the national test site for coal?bed methane development in Liupanshui are selected. Mercury injection and SEM are applied to analyze pore types, size and distribution of pore throats of coal?beds. The parameters of pore structure of coal?bed are computed. On this basis of anthropological features, pore structure, sensitivity and damage evaluation test from working fluids, damage mechanisms of coal seams have been analyzed. Results indicate that microprobes occurred in plant tissues, pores resulted from gas generation, and fractures are well developed in coal seams, so the reservoirs belong to dual porous medium. Therefore coal beds can easily be invaded and damaged by working fluids. The study shows that solid invasion, stress sensitivity, aqueous trapping and adsorption of high molecular polymers are major damage factors.

【关键词】 煤层气孔隙结构裂缝割理储层损害
【Key words】 coal?bed methanepore structurefracturecleatreservoir damage
【基金】 国家重点工业性试验项目“六盘水煤层气开发利用示范工程”(LMS -0 3 -0 1)成果
  • 【文献出处】 西南石油学院学报 ,Journal of Southwest Petroleum Institute , 编辑部邮箱 ,2002年03期
  • 【分类号】P618.11
  • 【被引频次】39
  • 【下载频次】596
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