摘要
我国能源消费持续攀升,能源安全面临新挑战,迫切需要加快非常规油气勘探开发进度。煤层气作为重要的非常规油气资源,在我国潜力巨大,是国家能源安全、能源结构优化及能源转型的重要组成部分。文章围绕能源安全新形势需求及“双碳”目标下煤层气开发整体部署,运用实践论方法系统梳理中国海油近些年煤层气高效勘探开发历程,探索出中浅层、薄煤层、深煤层等立体式、互补式、全方位气藏开发高效开发模式,实现了从理论到实践,再从实践不断反哺完善理论的跨越式发展,取得了阶段性的可喜成果。运用矛盾论唯物辩证分析中国海油煤层气资源勘探开发面临的资源、政策、技术、管理等方面的问题与挑战。最后,总结了中国海油煤层气高效开发实践主要矛盾的处理措施,形成了进一步推动中国海油煤层气高效开发关键路径,加快推动中国海油煤层气产能和陆上万亿大气区建设,助力保障国家能源安全。
With China's energy consumption continuously rising,energy security faces new challenges,necessitating accelerated exploration and development of unconventional oil and gas resources.Coalbed Methane(CBM),as a crucial unconventional energy resource with immense potential,plays a significant role in safeguarding national energy security,optimizing energy structure,and facilitating energy transition.This paper,focusing on the requirements of the new energy security landscape and the"dual-carbon"goals for CBM development deployment,employs the methodology of praxis theory to systematically review CNOOC's full-cycle optimized exploration and development practices in recent years.It explores three-dimensional,complementary,and comprehensive gas reservoir development models for shallow,thin-layer,and deep coal seams,achieving a leapfrog development from theoretical frameworks to practical applications,with continuous practice-based refinement of theories,and have been achieved a phased miletones.Through materialist dialectical analysis based on the theory of contradictions,the paper examines challenges faced by CNOOC's CBM exploration and development in resources,policies,technologies,and management.Finally,it summarizes the principal contradiction resolution measures in CNOOC's efficient CBM development practices,formulates key pathways to advance CBM development,accelerates the construction of CBM production capacity and onshore trillion-cubicmeter gas provinces,thereby contributing to national energy security assurance.
作者
张飞
ZHANG Fei(China United Coalbed Methane Corporation Ltd.,Beijing 100015,China)
出处
《钻采工艺》
北大核心
2025年第3期227-234,共8页
Drilling & Production Technology
关键词
能源安全
双碳目标
煤层气
高效开发
关键路径
energy security
“dual-carbon”goals
coalbed methane
high efficiency development
crucial path⁃way
