1) Overpressure system
超压体系
1.
subsequent compaction of the sediments and differential discharge of fluids from the pores led to the existence of large scale overpressure systems.
莺歌海盆地独特的地质进程形成多套泥源层 ,泥源岩的压实与排液不均衡导致盆地内存在大规模的超压体系 ,大量的生烃及水热增压使盆地内超压进一步加剧。
2.
The Unique geological evolution of the Yinggehai basin resulted in more than threesets of thick muddy deposits, subsequent compaction of the sediments and differential discharge of fluids from the pores led to the existence of large scale overpressure systems.
驾歌海盆地独特的地质进程形成多套泥源层,泥源岩的压实与排液不均衡导致盆地内存在大规模的超压体系,大量的生烃及水热增压使盆地内超压进一步加剧。
2) dual overpressure systems
双超压体系
3) deep overpressure system
深部超压体系
1.
Based on locations of source rock and key factors controlling genesis of overpressure systems,overpressure systems in sedimentary basins can be classified into deep overpressure system and shallow overpressure system.
以生成油气的烃源岩为线索 ,依据超压成因的主控因素 ,将沉积盆地中超压体系划分为两类 :即深部超压体系及浅部超压体系。
4) upper overpressure system
浅部超压体系
5) reservoir overpressure fluid system
储层超压流体系统
1.
A reservoir overpressure fluid system (ROPFS) is an assembly that constitutes overpressured fluid, its related essential geological elements and their interaction, confined by pressure seal.
储层超压流体系统的基本要素包括压力封闭层、超压流体、岩石骨架和输导通道;由于储层超压系统所处环境的差异,其超压强度可以大于、等于和小于环境的超压强度;超压传递、不均衡压实、裂解气的生成和浮力作用是储层超压形成的重要机制;大多数储层超压是油气聚集的结果;超压释放是超压流体系统内部油气成藏的必要条件,研究储层超压流体系统将更直接地揭示超压盆地中油气运移和聚集的过程。
6) Overpressured fluid system
盆地超压流体系统
补充资料:冲击波超压与动压