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    • 5. 发明申请
    • ACOUSTIC MEASUREMENT METHOD FOR THE CRUDE OIL PRODUCTION
    • 原油生产的声学测量方法
    • WO2013182900A3
    • 2014-03-13
    • PCT/IB2013001339
    • 2013-03-29
    • AKTSIONERNOE OBSCHESTVO LANDRESOURCES
    • MARTINOV EVGENY YAKOVLEVICHROGOV EVGENY NIKOLAEVICHMAZAEV VLADIMIR VLADIMIROVICH
    • G01V1/42
    • G01V1/42G01V2210/161
    • Invention relates to the gas and oil producing industry and could be used in the wells with the different geological structure types, including a depleted field and well with the reserve difficult to recover. The technical solution results in the seismic survey output accuracy and oil recovery factor increase. The seismic research during the crude oil production consists of generation of elastic vibrations by the sound-emitting device (6) in the form of horizontally directed to the reservoir cylindrical wave. The longitudinal and lateral waves penetrating the reservoir formed by the deformed layers due to exposure to the elastic vibration of sound-emitting device (6) are registered by the seismic sensors (13), which are located on the ground surface and measure their amplitude frequency response. Simultaneously with the seismic survey, the sound-emitting device elastic vibration provides the pressure oil feeding gradient and crude oil production.
    • 本发明涉及天然气和石油生产行业,可用于具有不同地质结构类型的井,包括枯竭的油田,储量难以恢复。 技术方案导致地震勘测输出精度和采油因子增加。 原油生产过程中的地震研究包括发射装置(6)以水平方向导向储层圆柱波形式产生弹性振动。 由于暴露于发声装置(6)的弹性振动而由变形层形成的储层的纵向和横向波由位于地面上的地震传感器(13)记录,并测量它们的振幅频率 响应。 与地震勘测同时,发声装置弹性振动提供压力供油梯度和原油产量。
    • 6. 发明申请
    • ACOUSTIC MEASUREMENT METHOD FOR THE CRUDE OIL PRODUCTION
    • 原油生产的声学测量方法
    • WO2013182900A2
    • 2013-12-12
    • PCT/IB2013/001339
    • 2013-03-29
    • AKTSIONERNOE OBSCHESTVO LANDRESOURCES
    • MARTINOV, Evgeny YakovlevichROGOV, Evgeny NikolaevichMAZAEV, Vladimir Vladimirovich
    • G01V1/38
    • G01V1/42G01V2210/161
    • Invention relates to the gas and oil producing industry and could be used in the wells with the different geological structure types, including a depleted field and well with the reserve difficult to recover. The technical solution results in the seismic survey output accuracy and oil recovery factor increase. The seismic research during the crude oil production consists of generation of elastic vibrations by the sound-emitting device in the form of horizontally directed to the reservoir cylindrical wave. The longitudinal and lateral waves penetrating the reservoir formed by the deformed layers due to exposure to the elastic vibration of sound-emitting device are registered by the seismic sensors, which are located on the ground surface and measure their amplitude frequency response. Simultaneously with the seismic survey, the sound-emitting device elastic vibration provides the pressure oil feeding gradient and crude oil production.
    • 本发明涉及天然气和石油生产行业,可用于具有不同地质结构类型的井,包括枯竭田和井,储量难以恢复。 技术方案导致地震勘测输出精度和油回收率提高。 原油生产过程中的地震研究包括以水平方向导向储层圆柱波形式的发声装置产生弹性振动。 由于暴露于发声装置的弹性振动,穿透由变形层形成的储层的纵向和横向波由位于地面上的地震传感器记录并测量它们的振幅频率响应。 与地震勘测同时,发声装置弹性振动提供了压力进油梯度和原油生产。
    • 8. 发明申请
    • REAL-TIME REFLECTION POINT DENSITY MAPPING DURING THREE-DIMENSIONAL (3D) VERTICAL SEISMIC PROFILE (VSP) SURVEYS
    • 三维(3D)垂直地震剖面(VSP)测量期间的实时反射点密度映射
    • WO2010113013A3
    • 2011-11-03
    • PCT/IB2010000713
    • 2010-03-30
    • SCHLUMBERGER TECHNOLOGY BVSCHLUMBERGER SERVICES PETROLSCHLUMBERGER CA LTDSCHLUMBERGER HOLDINGSPRAD RES & DEV LTDTULETT JOHN RICHARDARMSTRONG PHILIP NEVILLEMENKITI HENRI
    • TULETT JOHN RICHARDARMSTRONG PHILIP NEVILLEMENKITI HENRI
    • G01V1/42
    • G01V1/42G01V1/003G01V1/303G01V2210/161
    • Methods and apparatuses are disclosed for generating three dimensional (3D) vertical seismic profiles (VSPs) in a more time efficient manner. The methods and apparatuses enable faster and more efficient VSP surveys than previous techniques. In some embodiments, real- time updating of the velocity model and real-time reflection point density calculations are carried out, which are used to determine the location of the next seismic source firing. In the event the data of a particular bin has an insufficient fold, common image points (CIPs) or reflection point density, additional source firings may be carried out prior to moving the source. Further, in the event the data of a particular bin is excessive in terms of the fold, CIPs or reflection point density before the planned source firings for the bin are completed, remaining source firings for that bin may be skipped to save time and improve the efficiency of the data collection. In some embodiments, GPS positioning technology is used to place the seismic source for the next seismic source firing. In some embodiments, the seismic source firing is synchronized, based on a universal time (UTC) standard.
    • 公开了用于以更有效的方式生成三维(3D)垂直地震剖面(VSP)的方法和装置。 这些方法和设备能够比以前的技术更快更有效地进行VSP调查。 在一些实施例中,执行速度模型和实时反射点密度计算的实时更新,其用于确定下一个地震源射击的位置。 在特定仓的数据没有足够的折叠,常用图像点(CIP)或反射点密度的情况下,可以在移动源之前执行附加的源点亮。 此外,在特定仓的数据在折叠方面过多的情况下,完成了用于仓的计划的源点火之前的CIP或反射点密度,可以跳过该仓的剩余源点火以节省时间并改善 数据收集的效率。 在一些实施例中,GPS定位技术用于将地震源放置用于下一个地震源起火。 在一些实施例中,基于通用时间(UTC)标准来同步地震源射击。