首页|期刊导航|石油与天然气地质|万米深层油气地质学理论与极限勘探深度的挑战及资源潜力

万米深层油气地质学理论与极限勘探深度的挑战及资源潜力OA

Theory of petroleum geology at 10 000-meter depth:Challenges of hydrocarbon exploration depth limits and resource potential

中文摘要英文摘要

深地塔科1井成功钻探开启了石油工业万米深层油气勘探新纪元,探索极限勘探深度和油气赋存边界成为地质家们关注的重点.系统总结了万米深层油气勘探发现与地质学理论.计算了南华系、埃迪卡拉系和寒武系烃源岩的生烃量.论证了低地温场盆地液态石油保存深度下限可达9 000 m,提升了超深层石油勘探潜力.揭示了250 Ma前形成的大型油藏超长寿命的保存机制,推动超深层古老油气藏的勘探.提出碳酸盐岩储层不存在深度下限.发现复杂渗流形成的多油-水界面缝洞型油藏新类型,揭示了次生地球化学作用对油气性质与相态的改造机制.发现超深层超高油气柱,揭示了高产-高效井富集分布规律.这些研究成果为超深层重大发现及勘探战略调整提供了理论支撑,开辟了万米深层油气勘探空间,引领石油工业迈入万米深层油气勘探新时代.分析了万米深层油气地质理论面临的重大难题,提出极限勘探深度的概念,探索油气赋存边界,加快攻克地球深部高温-高压带来的认知盲区挑战,使极限深度范围内油气实现效益勘探开发,超万米深层油气成为保障国家能源安全的重要一极.

The successful drilling of well Shendi Take-1 has opened a new era in the petroleum industry,marking the beginning of 10 000-meter deep hydrocarbon exploration.Consequently,investigating the hydrocarbon exploration depth to its limits and the boundaries for hydrocarbon occurrence has become a hot topic in the geological community.In this study,we present a systematic summary of the discoveries and geological theory of hydrocarbon exploration at a depth of 10 000 m.The hydrocarbon generation potential of the Nanhua,Ediacaran,and Cambrian source rocks is quantitatively assessed.It is demonstrated that the depth threshold for preserving liquid oil extends up to 9 000 m in basins with low geothermal gradients,thereby enhancing the potential for ultra-deep oil exploration.Mechanisms responsible for the preservation of large-scale oil reservoirs formed 250 million years ago are identified,supporting the exploration of ultra-deep ancient hydrocarbon reservoirs.Furthermore,it is proposed that carbonate reservoirs exhibit no definitive lower depth limit.Additionally,a new type of fractured-vuggy oil reservoirs,formed by complex seepage processes and characterized by multiple oil-water interfaces,is identified.This discovery reveals the mechanisms by which secondary geochemical processes modify the properties and phases of hydrocarbons.Ultra-high oil and gas columns are discovered in ultra-deep reservoirs,revealing the enrichment and distribution patterns of hydrocarbons in high-yield and high-efficiency wells.These findings provide theoretical support for achieving major hydrocarbon discoveries in ultra-deep reservoirs and for reshaping hydrocarbon exploration strategies.Furthermore,they also open the new frontier of hydrocarbon exploration at a depth of 10 000 m,marking a new era for the petroleum industry.Additionally,we analyze major challenges in the geological theory of hydrocarbon exploration at such a depth,propose the concept of limit hydrocarbon exploration depth,and examine the boundaries for hydrocarbon occurrence.It is therefore essential to accelerate efforts to bridge the knowledge gap created by the high temperature and high pressure conditions in the Earth's interior,thereby enabling free hydrocarbon exploration within the limit depth range.Such progress will help position hydrocarbon resources in 10 000-m-deep plays as a vital component in safeguarding China's energy security.

朱光有;杨海军;谭清文

长江大学 地球科学学院,湖北 武汉 430100中国石油 塔里木油田公司,新疆 库尔勒 841000长江大学 地球科学学院,湖北 武汉 430100

能源科技

深地塔科1井油气赋存边界极限勘探深度万米深层南华系震旦系寒武系深层油气勘探

well Shendi Take-1hydrocarbon occurrence boundarylimit hydrocarbon exploration depth10 000-meter-deep playNanhua SystemSinian SystemCambrian Systemdeep oil and gas exploration

《石油与天然气地质》 2026 (2)

366-384,19

国家自然科学基金委重点项目(42230812).

10.11743/ogg20260202

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