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再论美国圣胡安盆地煤层气开发的启示OA

Revisiting implications of coalbed methane development in the San Juan Basin

中文摘要英文摘要

中国深层煤层气取得重大突破,引领煤层气成为新的研究热点.美国圣胡安盆地是迄今全球煤层气开发最成功的盆地,其地质认识和开发经验具有重要启示意义.系统梳理了圣胡安盆地煤层气地质认识,分析了截至2019年气井生产数据,明确了如下认识:① 高产走廊(Fairway)区产出气中25%~50%为原位热成因气,12%~60%为运移热成因气,15%~30%为次生生物成因气;② 盆地存在超压、过渡和欠压3种压力系统,超压区煤镜质体反射率(Ro)一般大于0.8%,以干气为主,CO2含量平均达6.5%;欠压区Ro 小于 0.7%,以湿气为主,CO2含量一般小于2.0%;③ 高产走廊区的高产主控因素包括良好沉积环境(厚煤层+顶板页岩)、适中煤化程度(热成因气生成+适宜生物气生成)、水文补给和较好的构造保存条件;④ 气井产能受"压力系统-储层物性-水文调节"控制,不同层段气、水贡献存在差异;⑤ 盆地累计产煤层气超6 500×108 m3,高产走廊区约1/3气井累计产气超1.13×108 m3,产气周期超300个月,且多数气井前24个月累计产量大于1 820×104 m3.全球迄今发现两类煤层气高产模式:一类如圣胡安、粉河和苏拉特等盆地,依靠浅埋、厚煤层、高渗透和次生生物气补给等天然条件实现规模化稳产;另一类以鄂尔多斯盆地为代表,以埋深大、煤阶高、渗透率低、保存条件良好和原位热成因气为特征,依赖工程改造技术实现有效开发.未来煤层气产业发展需要持续推进地质-工程一体化认识,实现不同煤阶和不同类型煤层气规模效益开发.

Significant breakthroughs have been achieved in the exploration and exploitation of deep coalbed methane(CBM)in China,establishing CBM as an emerging focus of academic research.The San Juan Basin stands out as the most successful basin in CBM development to date.Therefore,the geological understanding and development experience of this basin can provide critical implications.In this study,we systematically organize geological insights into CBM in the San Juan Basin and analyze gas well production data up to 2019.The results indicate that the gas produced from the fairway zone of the basin consists of approximately 25%~50%in-situ thermogenic gas,12%~60%migrated thermogenic gas,and 15%~30%secondary biogenic gas.The basin contains three pressure systems:overpressured,transitional,and underpressured.The overpressured zones are characterized by vitrinite reflectance(Ro)values of coals generally exceeding 0.8%and an average CO₂ content of up to 6.5%,with dry gas predominating.In contrast,the underpressured zones show Ro values of coals below 0.7%and CO2 contents generally below 2.0%,with wet gas being dominant.The primary factors governing the high productivity of the fairway zone include a favorable sedimentary setting(thick coal seams+shale roof),moderate coalification(generation of thermogenic gas and suitable for the generation of biogenic gas),and significant hydrological regulation and well-developed structural framework for preservation.The productivity of CBM wells in the basin is jointly controlled by pressure systems,reservoir physical properties,and hydrogeological regulation,with gas and water contributions varying across different pay zones.The San Juan Basin has cumulative CBM production exceeding 650×109 m3 of CBM.Within the fairway zone,approximately one-third of CBM wells have single-well cumulative production of greater than 113×106 m3.Wells in this zone exhibit gas production cycles lasting more than 300 months,with most yielding over 18.2×106 m3 of gas in the first 24 months of production.To date,two high-production models of CBM development have been identified worldwide.The first model is exemplified by the San Juan,Powder River,and Surat basins,where large-scale stable gas production is primarily supported by favorable natural conditions,including shallow burial depths,large coal seam thickness,high permeability,and recharge by secondary biogenic gas.The second model is represented by the Ordos Basin,characterized by great burial depths,high coal ranks,low permeability,favorable preservation conditions,and the predominance of in-situ thermogenic gas.In this case,the effective CBM recovery relies heavily on stimulation technologies.For the future development of the CBM industry,it is necessary to continuously advance the integrated geological and engineering understandings to achieve large-scale commercial CBM recovery across different coal ranks and basin types.

李勇;许卫凯;刘世民;刘宇;朱治同;张伟祺;王明伟;韩溢阳

中国矿业大学(北京)地球科学与测绘工程学院,北京 100083中国矿业大学(北京)地球科学与测绘工程学院,北京 100083美国宾夕法尼亚州立大学 能源与矿物工程系,宾夕法尼亚州 斯泰特科利奇 16802中国矿业大学(北京)地球科学与测绘工程学院,北京 100083中国矿业大学(北京)地球科学与测绘工程学院,北京 100083中国矿业大学(北京)地球科学与测绘工程学院,北京 100083中国矿业大学(北京)地球科学与测绘工程学院,北京 100083中国矿业大学(北京)地球科学与测绘工程学院,北京 100083

能源科技

甜点富集高产产能评价成因煤层气鄂尔多斯盆地圣胡安盆地

sweet spotenrichment and high productivityproductivity evaluationgenesiscoalbed methaneOrdos BasinSan Juan Basin

《石油与天然气地质》 2026 (2)

475-489,15

国家科技重大专项(2025ZD1405700).

10.11743/ogg20260208

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