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煤岩-致密砂岩无隔层储层分层压裂测试工艺OA

Differentiated staged fracturing and testing for coal-tight sandstone composite reservoirs without interlayer barriers:a case study of Well WFD1

中文摘要英文摘要

针对中国淮南市皖凤地1井煤岩-致密砂岩无隔层储层在压裂试气过程中易发生层间压窜、改造针对性不强及产能评价困难等问题,结合煤岩与致密砂岩物性和地应力特征差异,提出并实施了一套差异化分层压裂与分层测试工艺.煤岩段采用中等排量(6.0~10.0 m3/min)和中等规模缝网体积压裂,通过改变排量、控制裂缝高度及多粒径支撑剂组合的方式,提高裂缝导流能力,并抑制对地层的水敏伤害;砂岩段采用中等规模、低砂液体积比和多粒径支撑剂组合(粒径为150 μm的粉陶、粒径为212~425 μm石英砂和粒径为300~850 μm的石英砂)压裂,并配套液氮伴注工艺以强化返排效果.排采阶段应用双封隔器抽汲管柱,实现煤岩与砂岩储层的有效隔离返排与独立测试.工程实践表明,压裂过程中裂缝高度得到有效控制,未发生层间窜扰,两套储层均实现了有效改造,成功获取了其真实产能与流体性质.研究表明,该差异化分层压裂测试工艺适用于煤岩-致密砂岩无隔层储层,可为类似煤系气储层的安全压裂改造与分层评价提供技术参考.

Coal-tight sandstone composite reservoirs without interlayer barriers are prone to interlayer fracture interference,ineffective stimulation,and difficulties in production evaluation due to strong contrasts in lithology,petrophysical properties,and in-situ stress.To address these challenges in Well WFD1,a differentiated staged fracturing and testing strategy was proposed and implemented based on reservoir characteristics.The coal rock interval was treated using moderate pumping rates(6.0-10.0 m3/min)with medium-scale fracture network stimulation,combined with variable-rate control of fracture height and multi-size proppant placement to enhance conductivity while mitigating water sensitivity damage.The tight sandstone interval was fractured using a moderate-scale,low proppant concentration design with composite proppants(150 μm ceramic fines+212 to 425 μm quartz sand+300 to 850 μm quartz sand),coupled with liquid nitrogen-assisted injection to improve flowback efficiency.During the production stage,a dual-packer pumping string was deployed to achieve effective zonal isolation,enabling independent flowback and production testing of the coal and sandstone intervals.Field results indicate that fracture height growth was effectively controlled,no interlayer communication occurred,and both reservoir intervals were successfully stimulated.Reliable production capacity and fluid properties of the coal-tight sandstone were obtained for each layer.These results indicate that the proposed differentiated staged fracturing and testing technology is effective for coal-tight sandstone composite reservoirs without interlayer barriers and provides a practical reference for safe stimulation and accurate zonal evaluation of similar coal-measure gas reservoirs.

朱迪斯;王胜建;赵洪波;薛宗安;胡宏;岳伟民;杨平洲;迟焕鹏;石砥石;刘恩然;徐秋晨

中国地质调查局油气资源调查中心,北京 100083中国地质调查局油气资源调查中心,北京 100083中国地质调查局油气资源调查中心,北京 100083中国地质调查局油气资源调查中心,北京 100083中核湖南地矿科技有限公司,湖南 长沙 410007中国地质调查局油气资源调查中心,北京 100083深圳市百勤石油技术有限公司,广东 深圳 518054中国地质调查局油气资源调查中心,北京 100083中国地质调查局油气资源调查中心,北京 100083中国地质调查局油气资源调查中心,北京 100083中国地质调查局油气资源调查中心,北京 100083

能源科技

水力压裂工程南华北盆地致密砂岩气煤系气无隔层储层分层压裂分层测试

hydraulic fracturingSouthern North China Basintight sandstone gascoal-measure gasreservoirs without interlayer barriersstaged fracturingstaged testing

《深圳大学学报(理工版)》 2026 (3)

262-272,11

Geological Survey Project Funded by China Gedogical Survey(DD20190725,DD20242400) 中国地质调查局地质调查资助项目(DD20190725,DD20242400)

10.3724/SP.J.1249.2026.03262

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