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    • 3. 发明授权
    • Distinctive land seismic sweep
    • 独特的地震扫描
    • US09217799B2
    • 2015-12-22
    • US13874168
    • 2013-04-30
    • CONOCOPHILLIPS COMPANY
    • Peter M. EickJoel D. BrewerShan Shan
    • G01V1/155G01V1/09G01V1/00G01V1/24G01V1/147A01N47/40A01N57/20G01V1/145
    • G01V1/155A01N47/40A01N57/20G01V1/005G01V1/006G01V1/047G01V1/09G01V1/145G01V1/147G01V1/24A01N51/00A01N2300/00
    • The invention is an electric sweep type seismic vibrator source of the type used in seismic prospecting for hydrocarbons. The source uses an engine and generator combination to create electric power for all systems on the source such as driving a frame of linear electric motors that direct a rod or piston to contact the ground in a recurring fashion along with driving the source from location to location through a survey area. Preferably a foot is arranged on the bottom end of the rod or piston for contact with the ground and by engaging the grid of motors to push down against the ground in a rapid progression, acoustic energy is created and delivered into the ground for geophones to sense and record. However, the rapid progression of pulses or sweep of seismic energy is delivered in a distinctive fashion as compared to a conventional upsweep or downsweep and the distinctiveness is also achieved by creating a designed cadence or timing such that each pulse in a series of pulses is not delivered in a regular timing. Several similar seismic sources may be employed where each is provided with its own distinctive series of pulses such that each may be identified within the data record and source separation from a number of seismic sources may be accomplished.
    • 本发明是用于碳氢化合物地震勘探的电扫型地震振动源。 源使用发动机和发电机组合来为源上的所有系统创建电力,例如驱动线性电动机的框架,其引导杆或活塞以反复的方式接触地面,同时将源从位置驱动到位置 通过一个调查区。 优选地,脚放置在杆或活塞的底端上以与地面接触并且通过接合马达的格栅以快速进展地向下推动地面,产生声能并将其输送到地面中以使地震检波器感测 并记录。 然而,与传统的上升或下行扫描相比,脉冲或地震能量的快速进展以独特的方式传递,并且通过创建设计的节奏或定时也可以实现独特性,使得一系列脉冲中的每个脉冲不是 定期交付。 可以采用几个类似的地震源,其中每个具有其自己独特的一系列脉冲,使得每个可以在数据记录中被识别,并且可以实现与多个地震源的源分离。
    • 4. 发明申请
    • Wide Bandwidth Borehole Dipole Source
    • 宽带宽钻孔偶极子源
    • US20150143888A1
    • 2015-05-28
    • US14406502
    • 2012-06-11
    • Chung ChangHaoshi SongWei Zhang
    • Chung ChangHaoshi SongWei Zhang
    • G01V1/52E21B47/14G01V1/04
    • G01V1/52E21B47/14G01V1/04G01V1/053G01V1/147G01V1/155G01V1/40G01V1/44G01V2210/121G01V2210/1299G01V2210/1429Y10S181/401
    • A dipole source for borehole acoustic logging is provided, including a cylindrical shell, a center beam coupled to the cylindrical shell and a movable projector inside the cylindrical shell to impact the center beam. The dipole source includes a cavity acoustically insulating the interior of the cylindrical shell from the exterior of the cylindrical shell. An acoustic logging tool for making measurements of a substrate surrounding a borehole with a body insertable in the borehole is also provided. The body includes an acoustic detector and a dipole source as above, along the axial length. The acoustic logging tool may include a control unit to process data collected from the acoustic detector and obtain information about the substrate surrounding the borehole. According to embodiments disclosed herein, a method for operating a dipole source and an acoustic logging tool as above is provided.
    • 提供了一种用于井眼声学测井的偶极源,包括圆柱形壳体,耦合到圆柱形壳体的中心梁和圆柱形壳体内的可移动投影仪以撞击中心梁。 偶极源包括将圆柱形壳体的内部与圆柱形壳体的外部隔离的腔体。 还提供了一种声学测井工具,用于利用可插入钻孔中的主体来测量钻孔周围的基底。 身体沿轴向长度包括如上所述的声检测器和偶极源。 声学测井工具可以包括控制单元,用于处理从声学检测器收集的数据,并获得有关围绕钻孔的基底的信息。 根据本文公开的实施例,提供了如上所述的用于操作偶极源和声学测井工具的方法。
    • 5. 发明申请
    • Tunable Down-Hole Stimulation System
    • 可调谐井下刺激系统
    • US20140332199A1
    • 2014-11-13
    • US14340634
    • 2014-07-25
    • Dennis W. GilstadBarbara C. Gilstad
    • Dennis W. GilstadBarbara C. Gilstad
    • E21B43/00E21B43/26
    • E21B43/267E21B4/14E21B28/00E21B43/25G01V1/155
    • Tunable down-hole stimulation systems feature closed-loop control of pumps and tunable down-hole stimulators. Stimulators generate and hydraulically transmit broad vibration spectra tuned for resonance excitation and fracturing of geologic materials adjacent to the wellbore. Feedback data for controlling stimulation includes backscatter vibration originating in stimulated geologic material and detected at the stimulator(s). For initial fracturing with relatively large particle sizes, the power spectral density (PSD) of each stimulator output is down-shifted toward the lower resonant frequencies of large particles. As fracturing proceeds to smaller (proppant-sized) fragments having higher resonant frequencies, backscatter vibration guides progressive up-shifting of stimulator PSD to higher vibration frequencies. Stimulator power requirements are minimized by concentrating vibration energy efficiently in frequency bands to which geologic materials are most sensitive at every stage of stimulation. Geologic fragmentation efficiency is thus optimized, with inherent potential for plain-water fracs completed with self-generated proppant.
    • 可调谐的井下刺激系统具有泵和可调谐井下刺激器的闭环控制。 刺激器产生和液压传输调谐为与井眼相邻的地质材料的共振激发和压裂的宽振动光谱。 用于控制刺激的反馈数据包括源自刺激地质材料并在刺激器处检测的反向散射振动。 对于具有相对较大粒度的初始压裂,每个刺激器输出的功率谱密度(PSD)向大颗粒的较低共振频率向下移动。 随着压裂进行到具有较高谐振频率的较小(支撑剂大小)碎片,反向散射振动引导刺激器PSD的逐渐向上移位到更高的振动频率。 通过将振动能量有效地集中在地质材料在每个刺激阶段最为敏感的频带中,可以最大限度地提高刺激能力。 因此,优化了地质碎裂效率,并利用自生产的支撑剂完成了纯水裂缝的固有潜力。
    • 6. 发明申请
    • DISTINCTIVE LAND SEISMIC SWEEP
    • 区别地震
    • US20130286780A1
    • 2013-10-31
    • US13874168
    • 2013-04-30
    • CONOCOPHILLIPS COMPANY
    • Peter M. EickJoel D. BrewerShan Shan
    • G01V1/00G01V1/24
    • G01V1/155A01N47/40A01N57/20G01V1/005G01V1/006G01V1/047G01V1/09G01V1/145G01V1/147G01V1/24A01N51/00A01N2300/00
    • The invention is an electric sweep type seismic vibrator source of the type used in seismic prospecting for hydrocarbons. The source uses an engine and generator combination to create electric power for all systems on the source such as driving a frame of linear electric motors that direct a rod or piston to contact the ground in a recurring fashion along with driving the source from location to location through a survey area. Preferably a foot is arranged on the bottom end of the rod or piston for contact with the ground and by engaging the grid of motors to push down against the ground in a rapid progression, acoustic energy is created and delivered into the ground for geophones to sense and record. However, the rapid progression of pulses or sweep of seismic energy is delivered in a distinctive fashion as compared to a conventional upsweep or downsweep and the distinctiveness is also achieved by creating a designed cadence or timing such that each pulse in a series of pulses is not delivered in a regular timing. Several similar seismic sources may be employed where each is provided with its own distinctive series of pulses such that each may be identified within the data record and source separation from a number of seismic sources may be accomplished.
    • 本发明是用于碳氢化合物地震勘探的电扫型地震振动源。 源使用发动机和发电机组合来为源上的所有系统创建电力,例如驱动线性电动机的框架,其引导杆或活塞以反复的方式接触地面,同时将源从位置驱动到位置 通过一个调查区。 优选地,脚放置在杆或活塞的底端上以与地面接触并且通过接合马达的格栅以快速进展地向下推动地面,产生声能并将其输送到地面中以使地震检波器感测 并记录。 然而,与传统的上升或下行扫描相比,脉冲或地震能量的快速进展以独特的方式传递,并且通过创建设计的节奏或定时也可以实现独特性,使得一系列脉冲中的每个脉冲不是 定期交付。 可以采用几个类似的地震源,其中每个具有其自己独特的一系列脉冲,使得每个可以在数据记录中被识别,并且可以实现与多个地震源的源分离。