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    • 3. 发明申请
    • Microseismic fracture mapping using seismic source timing measurements for velocity calibration
    • 使用地震源定时测量进行速度校准的微震断层图
    • US20060023567A1
    • 2006-02-02
    • US11111627
    • 2005-04-21
    • James UhlChris WrightEric DavisJames WardNorman Warpinski
    • James UhlChris WrightEric DavisJames WardNorman Warpinski
    • H04B17/00
    • G01V1/40G01V1/008
    • A system and method for microseismic fracture mapping using seismic source timing measurements for velocity calibration is disclosed. The system may include a seismic source coupled to a wireline and a seismic source trigger, a sensor capable of detecting a first signal from the seismic source trigger, a transmitter coupled to the sensor, capable of transmitting a time value associated with the first signal, a receiver capable of detecting an event generated by the seismic source; and an analyzer capable of calculating a microseismic velocity of the event. In one embodiment, a first signal is transmitted through a wireline to trigger a seismic source. The first signal is detected, and a first time value associated with the first signal is transmitted. An event associated with the seismic source is detected and a second signal associated with the event is transmitted to an analyzer. A microseismic velocity is calibrated based on the time difference between the first time value and a second time value associated with the second signal.
    • 公开了一种使用地震源定时测量进行速度校准的微震断裂映射的系统和方法。 该系统可以包括耦合到有线线路的地震源和地震源触发器,能够检测来自地震源触发器的第一信号的传感器,耦合到传感器的能够发送与第一信号相关联的时间值的发射器, 能够检测地震源产生的事件的接收机; 以及能够计算该事件的微震速度的分析器。 在一个实施例中,第一信号通过电缆传输以触发地震源。 检测第一信号,并且发送与第一信号相关联的第一时间值。 检测与地震源相关联的事件,并且将与事件相关联的第二信号发送到分析器。 基于第一时间值与与第二信号相关联的第二时间值之间的时间差校准微震速度。
    • 4. 发明申请
    • System and method for combined microseismic and tiltmeter analysis
    • 组合微震和倾斜仪分析的系统和方法
    • US20060081412A1
    • 2006-04-20
    • US11080591
    • 2005-03-15
    • Chris WrightEric DavisLarry GriffinKevin FisherGeorge KingNorman WarpinskiJames WardEtienne Samson
    • Chris WrightEric DavisLarry GriffinKevin FisherGeorge KingNorman WarpinskiJames WardEtienne Samson
    • G01V1/40G01V1/00
    • G01V1/008E21B43/26G01V1/40
    • A system and method for monitoring geophysical processes is disclosed. The system may include a component array located within the bore hole of the active well, or, alternatively, in the bore hole of a nearby offset well, or, alternatively, in multiple shallow boreholes in the surface around the active well. The system may include a sensor array located within a bore, wherein the sensor array has at least one tilt sensor and at least one microseismic sensor, a transmitter in communication with the at least one tilt sensor and the at least one microseismic sensor, and a receiver in communication with the transmitter. In one embodiment, data comprising tiltmeter data and microseismic data from a sensor during at least one geophysical process is received. The microseismic data is analyzed to ascertain a location of each microseismic event of a plurality of microseismic events isolated from the microseismic data, and the tiltmeter data is analyzed to ascertain orientation and dimension of a fracture developed during said at least one geophysical process.
    • 公开了一种用于监测地球物理过程的系统和方法。 该系统可以包括位于活动井的钻孔内的组件阵列,或者替代地,在附近的偏移井的钻孔中,或者在活动井周围的表面中的多个浅钻孔中。 该系统可以包括位于孔内的传感器阵列,其中传感器阵列具有至少一个倾斜传感器和至少一个微震传感器,与至少一个倾斜传感器和至少一个微震传感器通信的发射器,以及 接收机与发射机通信。 在一个实施例中,接收在至少一个地球物理过程期间包括来自传感器的倾斜仪数据和微震数据的数据。 分析微震数据以确定从微震数据分离的多个微震事件的每个微震事件的位置,并且分析倾斜仪数据以确定在所述至少一个地球物理过程期间发展的裂缝的取向和尺寸。
    • 5. 发明授权
    • Microseismic fracture mapping using seismic source timing measurements for velocity calibration
    • 使用地震源定时测量进行速度校准的微震断层图
    • US07660194B2
    • 2010-02-09
    • US11111627
    • 2005-04-21
    • James E. UhlChris WrightEric DavisJames WardNorman Warpinski
    • James E. UhlChris WrightEric DavisJames WardNorman Warpinski
    • G01V1/40
    • G01V1/40G01V1/008
    • A system and method for microseismic fracture mapping using seismic source timing measurements for velocity calibration is disclosed. The system may include a seismic source coupled to a wireline and a seismic source trigger, a sensor capable of detecting a first signal from the seismic source trigger, a transmitter coupled to the sensor, capable of transmitting a time value associated with the first signal, a receiver capable of detecting an event generated by the seismic source; and an analyzer capable of calculating a microseismic velocity of the event. In one embodiment, a first signal is transmitted through a wireline to trigger a seismic source. The first signal is detected, and a first time value associated with the first signal is transmitted. An event associated with the seismic source is detected and a second signal associated with the event is transmitted to an analyzer. A microseismic velocity is calibrated based on the time difference between the first time value and a second time value associated with the second signal.
    • 公开了一种使用地震源定时测量进行速度校准的微震断裂映射的系统和方法。 该系统可以包括耦合到有线线路的地震源和地震源触发器,能够检测来自地震源触发器的第一信号的传感器,耦合到传感器的能够发送与第一信号相关联的时间值的发射器, 能够检测地震源产生的事件的接收机; 以及能够计算该事件的微震速度的分析器。 在一个实施例中,第一信号通过电缆传输以触发地震源。 检测第一信号,并且发送与第一信号相关联的第一时间值。 检测与地震源相关联的事件,并且将与事件相关联的第二信号发送到分析器。 基于第一时间值与与第二信号相关联的第二时间值之间的时间差校准微震速度。
    • 8. 发明授权
    • Tapered tunnel for tunnel thrusters
    • 隧道推进器锥形隧道
    • US08584609B2
    • 2013-11-19
    • US12894481
    • 2010-09-30
    • Paolo StasollaEric DavisRick Davis
    • Paolo StasollaEric DavisRick Davis
    • B63H25/42B63H25/46
    • B63H25/42
    • A tunnel thruster system for a vessel. The tunnel thruster system includes a thruster propulsion mechanism including a drive unit driving a transmission and propeller assembly located within a thruster tunnel. The thruster tunnel comprising a propeller section, first and second tapered tunnel sections interconnected with one another by the propeller section, the propeller section and the first and the second tapered tunnel sections oriented substantially transversely to a keel of the vessel and accommodating the transmission and propeller assembly. Each tapered tunnel section extends from the propeller section to a tunnel opening through a hull of the vessel. Diameters of the first and the second tapered tunnel sections corresponding to a diameter of the propeller section at the propeller section and taper outward toward a larger diameter at each of the corresponding tunnel openings through the hull of the vessel.
    • 船舶隧道推进器系统。 隧道推进器系统包括推进器推进机构,其包括驱动单元,驱动单元驱动位于推进器通道内的变速器和螺旋桨组件。 推进器隧道包括螺旋桨部分,螺旋桨部分彼此相互连接的第一和第二锥形通道部分,螺旋桨部分和第一和第二锥形通道部分基本上横向于容器的龙骨定向并且容纳传动和螺旋桨 部件。 每个锥形隧道段从螺旋桨部分延伸穿过船只的船体的隧道开口。 第一锥形通道段和第二锥形通道段的直径对应于推进器部分处的螺旋桨部分的直径,并且在通过船体的每个相应隧道开口处朝向较大的直径向外锥形。