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    • 13. 发明授权
    • Water cut monitoring means and method
    • 节水监测手段和方法
    • US5095758A
    • 1992-03-17
    • US619621
    • 1990-11-29
    • Percy T. CoxTheodore W. NussbaumCharles L. Gray, Jr.
    • Percy T. CoxTheodore W. NussbaumCharles L. Gray, Jr.
    • G01N27/02B01D17/00E21B47/10G01F1/74G01F15/08G01N27/22G01N33/28
    • G01N27/221G01F1/74G01F15/08G01N33/2823
    • The present invention is a water cut monitor which includes a settling tank in which a quantity of fluid from a producing well is accumulated. The fluid is removed as a stream of fluid after a predetermined interval from the accumulation of the fluid by the settling tank so as to allow the accumulated fluid to separate into three phases: free water, water-continuous and oil-continuous. The flow rate of the stream of fluid is measured and a corresponding flow rate signal is provided as well as a temperature signal corresponding to a sensed temperature of the stream of fluid. The water cut monitor includes a plurality of electrodes in contact with the fluid. Injection electronics connected to at least one of the electrodes provides an injection voltage and injection current to the fluid stream and also provides signals corresponding to the injection voltage and injection current. A voltage in the fluid stream is measured and a measurement signal provided. A computer determines the water cut of the petroleum stream in accordance with the temperature signal, the injection voltage and injection current signals, the electrical phase angle signal and the measured voltage signal.
    • 本发明是一种水切割监视器,其包括沉淀槽,在沉淀槽中积聚来自生产井的流体量。 在流体由沉降槽积聚预定间隔之后,将流体作为流体流除去,以使积聚的流体分离成三相:自由水,水连续和油连续。 测量流体流的流速,并提供相应的流量信号以及对应于流体流的感测温度的温度信号。 切水监视器包括与流体接触的多个电极。 连接到至少一个电极的注入电子器件向流体流提供注入电压和注入电流,并且还提供对应于注入电压和注入电流的信号。 测量流体流中的电压并提供测量信号。 计算机根据温度信号,注射电压和注射电流信号,电相角信号和测量的电压信号来确定石油流的切割。
    • 17. 发明授权
    • Deep penetration well logging system and method
    • 深度穿透测井系统和方法
    • US4897605A
    • 1990-01-30
    • US840370
    • 1986-03-17
    • Percy T. CoxWayne F. WarrenDonald L. Johnson, Jr.
    • Percy T. CoxWayne F. WarrenDonald L. Johnson, Jr.
    • G01V3/30
    • G01V3/30
    • A well logging system and method of the present invention determines the dielectric constant and/or conductivity of earth formations some of which have fluid invasion. The system and method of the present invention includes the transmission of electromagnetic energy into the earth formation from a first location in a borehole in the formations at a frequency which enables the electromagnetic energy to propagate throughout the surrounding earth formations. Electromagnetic energy is received by receivers at three locations in the borehole which are spaced longitudinally from the location of the transmission of the electromagnetic energy. The receivers provide signals representative of the total electromagnetic fields at those locations. The dielectric constant and/or resistivity of the earth formations are determined in accordance with portions of the signals from the three receivers corresponding to secondary electromagnetic fields at the three receiving locations.
    • 本发明的测井系统和方法确定地层的介电常数和/或电导率,其中一些具有流体侵入。 本发明的系统和方法包括以能够使电磁能量传播到周围地层的频率从地层中的钻孔中的第一位置将电磁能传输到地层中。 电磁能被接收机在钻孔中的三个位置接收,这些位置与电磁能量传输的位置纵向隔开。 接收器提供代表这些位置处的总电磁场的信号。 地层的介电常数和/或电阻率根据三个接收器对应于次级电磁场的信号的部分来确定。
    • 18. 发明授权
    • Deep penetration well logging sonde
    • 深入渗透测井仪
    • US4700141A
    • 1987-10-13
    • US826532
    • 1986-02-06
    • Percy T. CoxWayne F. WarrenTheodore W. Nussbaum
    • Percy T. CoxWayne F. WarrenTheodore W. Nussbaum
    • G01V3/30G01V3/18
    • G01V3/30
    • A well logging system and method of the present invention determines the dielectric constant and/or conductivity of earth formations some of which have fluid invasion. The system and method of the present invention include the transmission of electromagnetic energy into the earth formations from a first location in a borehole in the formations at a frequency which enables the electromagnetic energy to propagate throughout the surrounding earth formations. Electromagnetic energy is received by receivers at three locations in the borehole which are spaced longitudinally from the location of the transmission of the electromagnetic energy. The receivers provide signals representative of the received electromagnetic energy. The dielectric constant and/or resistivity of the earth formations are determined in accordance with the signals from the three receivers.
    • 本发明的测井系统和方法确定地层的介电常数和/或电导率,其中一些具有流体侵入。 本发明的系统和方法包括以能够使电磁能量传播到周围地层的频率从地层中的钻孔中的第一位置将电磁能传输到地层中。 电磁能被接收机在钻孔中的三个位置接收,这些位置与电磁能量传输的位置纵向隔开。 接收器提供表示所接收的电磁能的信号。 根据来自三个接收器的信号确定地层的介电常数和/或电阻率。