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二次开发油藏中井眼导向和防碰方案分析
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作者 高永明 何理鹏 《石化技术》 CAS 2024年第3期223-225,共3页
底水油藏在二次开发过程中遇到的主要难点包括储层物性的非均质性、构造倾角和当前流体分布特征的不确定性,而且两期开发井眼之间可能存在较高的防碰风险。该项目成功实施的关键在于定量刻画厚储层的细节特征。为此,提出了基于GeoSpher... 底水油藏在二次开发过程中遇到的主要难点包括储层物性的非均质性、构造倾角和当前流体分布特征的不确定性,而且两期开发井眼之间可能存在较高的防碰风险。该项目成功实施的关键在于定量刻画厚储层的细节特征。为此,提出了基于GeoSphere超深随钻油藏描绘技术的综合优化方案,并进行了现场应用。在南海东部的实例分析表明:(1)沿着水平井轨迹,GeoSphere可同时识别垂向上多达4个有效边界和5套地层的特征,而且确认当前实际的油水界面仍为倾斜状态,有效的剩余油柱高于12m;(2)基于该综合方案的定量地质导向结果,不仅保证了二次开发过程中的工程安全,而且使得实际产能比设计高约30%。综合分析认为,基于GeoSphere超深随钻油藏描绘技术的综合优化方案可为单井的随钻追层和井眼防碰提供关键的技术支持和保障。 展开更多
关键词 底水油藏 二次开发 地质导向 井眼防碰 geosphere超深随钻油藏描绘技术 电阻率反演 油水界面
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A holistic perspective on Earth system science
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作者 Yongfei ZHENG Zhengtang GUO +5 位作者 Nianzhi JIAO Mu MU Shilong PIAO Suiyan FU Dinghui YANG Maoyan ZHU 《Science China Earth Sciences》 SCIE EI CAS CSCD 2024年第10期3013-3040,共28页
Earth system can be categorized into three parts, solid Earth system, surface Earth system, and Sun-Earth space system. These three subsystems not only have mutual transmission and coupling relationships in both energ... Earth system can be categorized into three parts, solid Earth system, surface Earth system, and Sun-Earth space system. These three subsystems not only have mutual transmission and coupling relationships in both energy and matter but also involve multiple scales from microscopic to macroscopic. Earth system science is characterized by its globality and unity with a holistic view and a systematic view at multiple scales in both space and time. It focuses not only on the physical, chemical and biological interactions between various geospheres but also on the properties, behaviors, processes, and mechanisms of the entire Earth and its spheres. Although significant progress has been made in the study of internal disciplines of these three subsystems,there is still insufficient understanding of their overall behavior and interactions between individuals, thus facing challenges of different types and levels. The solid Earth system is composed of the crust, mantle, and core. Existing observational techniques struggle to penetrate deep into the mantle, making direct observation and data acquisition difficult;the extreme environments within Earth, such as high temperature, high pressure, and strong magnetic fields, also pose great challenges to observational equipment and scientific experiments. The surface Earth system is an open complex mega-system, in which there are complex interactions and feedback mechanisms among its geospheres(such as atmosphere, hydrosphere, biosphere, pedosphere and lithosphere), leading to difficulties in understanding of its overall behavior and long-term evolution. Biological activities have become increasingly significant in affecting the surface Earth system. The coupling between the internal and external Earth systems becomes more complex. Distinguishing and quantifying the impacts of Earth spherical interactions and biological activities on the surface Earth system is a major challenge. The Sun-Earth space system involves multiple physical processes such as solar activity, Earth's magnetic field, atmosphere, and space weather. Solar activity significantly affects the Earth's space environment, but existing observational and reconstruction methods and prediction models still lack precision and timeliness.Thus it is important to improve the prediction capability of solar activity and reduce the impact of space weather disasters. How to cross different scales and establish coupled models of multiple physical processes is a significant challenge in the study of the Sun-Earth space system. Because the various processes and phenomena within and between these three Earth subsystems often span multiple scales in both space and time and exhibit strong nonlinear characteristics, understanding their behaviors and processes becomes complex and variable, posing great challenges for theoretical modelling and numerical simulation. Therefore,the study of Earth system science requires in-depth interdisciplinary integration to jointly reveal the basic laws and operating mechanisms of Earth system. 展开更多
关键词 Earth's interior Earth's exterior geospheres Energy exchange Material transfer
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GeoSphere超深探边工具在水平井的应用
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作者 张光辉 《中国石油和化工标准与质量》 2023年第23期105-107,共3页
GeoSphere超深探边工具是斯伦贝谢公司新一代随钻超深探边工具,它具有多频段多间距探测,最远能探测到距离井眼30m范围内地层变化,比地震精度高,能够进行地层构造成像。在渤海油田的开发中,开发井面临油藏构造边界变化大和动油水界面不... GeoSphere超深探边工具是斯伦贝谢公司新一代随钻超深探边工具,它具有多频段多间距探测,最远能探测到距离井眼30m范围内地层变化,比地震精度高,能够进行地层构造成像。在渤海油田的开发中,开发井面临油藏构造边界变化大和动油水界面不确定的问题。利用GeoSphere超深探边工具能够探测动油水界面、地层倾角变化及构造发育情况,指导着陆段及水平段轨迹实施,为油田高产稳产奠定了基础。 展开更多
关键词 geosphere 超深探边 水平井 着陆
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