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    • 3. 发明授权
    • Kick detection during drilling
    • 在钻孔期间踢检测
    • US5154078A
    • 1992-10-13
    • US546272
    • 1990-06-29
    • Daniel Codazzi
    • Daniel Codazzi
    • E21B21/08E21B47/10E21B49/00
    • E21B49/005E21B21/08E21B47/101
    • Gas influx into a wellbore, called A "kick", is detected by two different, yet complementary methods during active drilling of the borehole. The first method is based upon the existence of standing wave patterns generated by pressure oscillations of the drilling rig mud pumps. Such standing wave patterns form time sequences of maximum and minima as a gas slug moves upwardly in the annulus. The time between such peaks of such oscillations is measured and forms the basis for generation of one first kick signal. A continuous increase in the phase between annulus and drill string standing waves forms the basis for another standing wave kick signal. The second method uses acoustic signals from a downhole source near the bottom of the borehole which are transmitted at different speeds in the annulus mud and in the interior drill string mud, where the annulus mud may be gas cut. A difference in arrival time between the signals is determined, and if large enough, causes a second kick signal to be generated. A third method may be used where at least two drilling pumps are used in the drilling system. Such method determines the total travel time, from standpipe to drill string and up the annulus, of a beat frequency pressure wave caused by slightly different frequencies of the two pumps. An alarm signal is generated if the total travel time is greater than a computed threshold.
    • 在井眼的主动钻井过程中,通过两种不同但又互补的方法来检测气体涌入井眼,称为“踢”。 第一种方法是基于钻机泥浆泵的压力振荡产生的驻波模式的存在。 当气囊在环形空间中向上移动时,这种驻波图案形成最大和最小的时间序列。 测量这种振荡的这种峰值之间的时间,并且形成产生一个第一踢脚信号的基础。 环形和钻柱驻波之间的相位的连续增加是另一个驻波起搏信号的基础。 第二种方法使用来自钻孔底部附近的井下源的声学信号,其在环形泥浆和内部钻柱泥浆中以不同的速度传播,其中环形泥浆可以被气体切割。 确定信号之间的到达时间的差异,并且如果足够大,则产生第二反转信号。 可以使用在钻井系统中使用至少两个钻井泵的第三种方法。 这种方法确定了由两个泵的稍微不同的频率引起的节拍频率压力波的总行驶时间,从立管到钻柱和环向上。 如果总行程时间大于计算的阈值,则会产生报警信号。
    • 4. 发明授权
    • Power allocation to downhole tools in a bottom hole assembly
    • 功率分配到底孔组件中的井下工具
    • US08860249B2
    • 2014-10-14
    • US12962794
    • 2010-12-08
    • Burc SimsekRaphael GadotDaniel CodazziRandall P. LeblancGilles Vie
    • Burc SimsekRaphael GadotDaniel CodazziRandall P. LeblancGilles Vie
    • H02J3/14
    • H02J3/14Y10T307/461
    • The present disclosure relates to a method to allocate electrical power among tools in a bottomhole assembly disposed in a wellbore. A bottomhole assembly having an electric generator, an electrical bus, a bus master, and two or more tools is provided. One or more of the two or more tools has selectable power modes. Electrical power, up to a maximum output value, is provided through the electrical bus to the two or more tools using the electric generator. Electronic components of the two or more tools are synchronized, using the bus master to select a normal power mode or a low power mode for each tool having selectable power modes. The combined power requirements of the two or more tools at any given time do not exceed the maximum output value.
    • 本公开涉及一种在设置在井筒中的井底组件中的工具之间分配电力的方法。 提供了一种具有发电机,电气总线,总线主机和两个或更多个工具的井底组件。 两个或更多个工具中的一个或多个具有可选择的功率模式。 通过电气总线向使用发电机的两个或更多个工具提供高达最大输出值的电力。 两个或更多个工具的电子部件被同步,使用总线主机为具有可选功率模式的每个工具选择正常功率模式或低功率模式。 在任何给定时间两种或多种工具的组合功率要求不超过最大输出值。
    • 5. 发明授权
    • Instrumentation of appraisal well for telemetry
    • 遥感评估仪器
    • US08400326B2
    • 2013-03-19
    • US12507217
    • 2009-07-22
    • Daniel Codazzi
    • Daniel Codazzi
    • G01V3/00
    • E21B47/122
    • A telemetry system for use in developing a field of wells has a first downhole device capable of transmitting and/or receiving signals disposed in an appraisal well, an electronics control system located at or near the top of the appraisal, a cable disposed in the appraisal well that provides signal communication between the first downhole device and the electronics control system, and a second downhole device capable of transmitting and/or receiving signals disposed in a second wellbore. The signal is passed through the cable between the first downhole device and the electronics control system. From there, the signal may be re-transmitted to a desired location.
    • 用于开发井场的遥测系统具有能够发送和/或接收设置在鉴定井中的信号的第一井下装置,位于评估顶部或附近的电子控制系统,设置在评估中的电缆 其提供第一井下装置和电子控制系统之间的信号通信,以及能够发送和/或接收设置在第二井筒中的信号的第二井下装置。 信号通过第一井下装置和电子控制系统之间的电缆。 从那里可以将信号重新发送到所需的位置。