Hydrocarbon sources controlled by basin prototype and petroleum accumulation controlled by basin superposition: thoughts and technology of resource grading evaluation and exploration optimization in petroliferous basins
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摘要: 中国含油气盆地的形成演化具有多旋回、多成因、多阶段、多迭加的特点。针对这具有自身风格特点的盆地研究评价,在朱夏先生提出的3T(环境)—4S(作用)—4M(响应)盆地分析程式基础上,通过对我国东、西部大量盆地研究实践,总结形成了“原型控源、迭加控藏”的盆地分析评价思路,并进一步提出了“3342”(3个控制、3个演化、4个有效、2个中心)分析方法,同时发展形成了“TSM盆地模拟资源评价系统”的评价方法。这些方法和系统对我国油气不同勘探阶段、不同类型盆地的分析研究和勘探评价部署具有重要的指导作用。Abstract: The formation and evolution of petroliferous basins in China are characterized by multi-cycles, multi-genesis, multi-stages and superposition. In these basins with their own style and characteristics, based on the analysis of 3T (time, tectonic setting, thermal regime)-4S (subsidence, sedimentation, stress, style)-4M (material, maturation, migration, maintenance) proposed by Mr. ZHU Xia, and the research and practice of a large number of basins in eastern and western China, a basin analysis and evaluation of "prototype controlled sources and superposition controlled accumulation" is summarized, a "3342" (3 controls, 3 evolutions, 4 effects and 2 centers) analysis method is proposed, and a TSM basin simulation and resource evaluation system is developed. These methods and systems play an important guiding role in the analysis, research and exploration evaluation deployment of different exploration stages and types of basins in China.
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图 3 裂谷、拗拉槽、拉张断陷的形成机制
Figure 3. Formation mechanism of rift valley, depression trough and extensional fault depression
图 4 盆地动态成藏研究的工作流程框架
Figure 4. Workflow framework of basin dynamic reservoir formation research
图 5 裂陷和离散陆缘的原型控源模式
Figure 5. Prototype source control model of rifting and discrete continental margin
图 6 “原型控源、迭加控藏”下的“3342”分析方法
Figure 6. "3342" analysis method under "prototype controlled sources and superposition controlled accumulation"
图 7 TSM盆地模拟资源评价系统模型库
Figure 7. Model base of TSM basin simulation and resource evaluation system
图 8 川东南地区寒武纪以来盆地原型演化序列
Figure 8. Basin prototype evolution sequence since Cambrian in southeastern Sichuan Basin
表 1 碰撞前渊、挤榨前渊形成机制差异对比
Table 1. Comparison of formation mechanism of impact and squeeze foregrounds
原型类型 环境 组成 热体制 构造体制 碰撞前渊 会聚碰撞 陆缘 从冷返回正常;冷却洋壳俯冲消亡,碰撞大陆融合恢复热正常 沉降的构造载荷递增;挠曲刚度弹性;前隆抬升迁移明显 挤榨前渊 会聚变格 陆内 从热返回正常;热覆盖陆壳升温下潜,中酸性浆岩上涌散热恢复正常 沉降的构造载荷递减;挠曲刚度流变性;前隆抬升迁移掩盖 
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表 2 不同体制下原型及控“源”与组合特征对比
Table 2. Comparison of prototype, source control and combination characteristics under different systems
构造体制 时代 原型类型 热体制 烃源岩发育环境及典型实例 储层发育环境及典型实例 盖层发育环境及实例 生储盖组合及实例 陆缘体制 中元古代—早古生代 裂陷 下涌上张 盆地—深水陆棚滞留环境,川东北—湘鄂西陡山沱组 裂陷(槽)边缘相带,安岳气田灯影组丘滩体 湘鄂西陡山沱组—灯影组—水井沱组生储盖组合 拗陷 台缘 深部蠕散 盆地—陆棚滞留环境,四川盆地北缘下寒武统筇竹寺组 台内 下缩上沉 局限封闭高盐/碱性环境,鄂尔多斯盆地的马家沟组 局限台内浅滩,安岳气田龙王庙组 局限—蒸发台地相,中扬子宜昌地区覃家庙组 安岳气田龙王庙组模式 前渊 下插上挠 隆后凹陷滞留海环境,川东南五峰组—龙马溪组 富有机质页岩储层 涪陵页岩气田模式 过渡体制 晚古生代—早中生代 裂陷 下涌上张 陆棚—盆地相环境,川北、鄂西吴家坪组—大隆组 裂陷—台缘边缘礁滩,普光气田长兴组—飞仙关组 普光气田生储盖组合 拗陷 下缩上沉 海陆过渡环境、台凹,川东南龙潭组、川北茅口组 台内生屑滩,川北—川中茅口组 局限封闭膏盐/碱性环境,川西雷口坡组藻白云岩 局限台内粒屑滩,川西雷四段 局限台地—膏盐潟湖相,四川盆地嘉陵江组、雷口坡组膏盐岩 川西雷口坡组 陆内体制 中新生代 断陷拗陷 下挤上张 半深湖—深湖相,渤海湾盆地沙河街组 滨浅湖—三角洲相砂体 半深湖—深湖相泥岩 渤海湾盆地济阳坳陷古近系 前渊 下插上挠 半深湖—深湖相,川西须家河组 滨浅湖—三角洲相砂体 半深湖—深湖相泥岩 川西须家河组生储盖组合
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表 3 两类典型盆地迭加与油气响应
Table 3. Superposition and hydrocarbon response of two typical basins
盆地类型 迭加关系 地温场 烃源岩 储层 圈闭 成藏期次 成藏组合 油气富集规律 中新生代断陷盆地 拗陷/断陷 高地温返回正常地温梯度 单一烃源岩,短期快速成熟,大量生烃(油为主) 相控砂体,压实胶结改造为主 期次较为单一 喜马拉雅早期为主,一次成藏 单源—单储:自生自储、新生古储(潜山) 斜坡、凹中隆控聚,砂体控富 中生代—古生代叠合盆地 中(新)生代前渊/古生代地台 由低地温转向中—低地温梯度 多源、多期生烃,过熟,多元供烃,气为主 复杂成岩改造,类型多样:礁滩相储层、白云岩储层、风化岩溶储层、致密砂岩储层 多期构造形成、后期改造定型 多期成藏、油—气转化,晚期调整定型 多源、多储、多套区域盖层组成多个成藏组合:下组合、上组合、陆相层系自生—自储组合、跨越式生—储组合 古隆起、古斜坡控聚,优质储层控富
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