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    • 1. 发明授权
    • Acoustic sensor for pipeline deposition characterization and monitoring
    • 用于管道沉积表征和监测的声学传感器
    • US06513385B1
    • 2003-02-04
    • US09851511
    • 2001-05-08
    • Wei HanVimal V. ShahJames R. BirchakBruce H. Storm, Jr.Rajnikant M. AminBayram KalpakciFouad Fleyfel
    • Wei HanVimal V. ShahJames R. BirchakBruce H. Storm, Jr.Rajnikant M. AminBayram KalpakciFouad Fleyfel
    • G01N2900
    • G01N29/2437G01B17/02G01N29/041G01N29/2468G01N29/28G01N2291/02854G01N2291/0421G01N2291/0422G01N2291/2634
    • A method and apparatus for analyzing a deposited layer on the inner surface of a fluid container wall having inner and outer surfaces are disclosed. One embodiment of the method comprises (a) transmitting an acoustic signal from a transmitter at a first distance from the outer surface of the wall; (b) receiving a first received signal A, comprising a reflection from the wall outer surface; (c) receiving a second received signal B, comprising a reflection from the wall inner surface; (d) receiving a third received signal C from the wall inner surface; (e) calculating a coefficient Rwp from A, B and C, and (f) calculating a coefficient Rpd from A, B and Rwp, and calculating the acoustic impedance of the deposited layer Zd from Rwp, Rpd, and Zw, where Zw is the acoustic impedance of the material between the transmitter and the wall outer surface. A preferred embodiment of the apparatus comprises a piezoelectric or ferroelectric transducer having front and back faces; a backing member acoustically coupled to said transducer back face and impedance-matched to said transducer element, said backing member having proximal and remote faces; and a delay material disposed between said transducer front face and the wall outer surface.
    • 公开了一种用于分析具有内表面和外表面的流体容器壁的内表面上的沉积层的方法和装置。 该方法的一个实施例包括(a)从距离壁的外表面第一距离的发射器发射声信号; (b)接收第一接收信号A,包括来自所述壁外表面的反射; (c)接收第二接收信号B,其包括来自所述壁内表面的反射; (d)从所述壁内表面接收第三接收信号C; (e)从A,B和C计算系数Rwp,以及(f)从A,B和Rwp计算系数Rpd,并从Rwp,Rpd和Zw计算沉积层Zd的声阻抗,其中Zw为 发射机和墙外表面之间的材料的声阻抗。 该装置的优选实施例包括具有正面和背面的压电或铁电换能器; 声学耦合到所述换能器背面并与所述换能器元件阻抗匹配的背衬构件,所述背衬构件具有近端面和远端面; 以及设置在所述换能器前表面和所述壁外表面之间的延迟材料。
    • 2. 发明授权
    • Acoustic sensor for pipeline deposition characterization and monitoring of pipeline deposits
    • 用于管道沉积表征和监测管道沉积物的声学传感器
    • US06701787B2
    • 2004-03-09
    • US10223505
    • 2002-08-19
    • Wei HanVimal V. ShahJames R. BirchakBruce H. StormRajnikant M. AminBayram KalpakciFouad Fleyfel
    • Wei HanVimal V. ShahJames R. BirchakBruce H. StormRajnikant M. AminBayram KalpakciFouad Fleyfel
    • G01N2900
    • G01N29/2437G01B17/02G01N29/041G01N29/2468G01N29/28G01N2291/02854G01N2291/0421G01N2291/0422G01N2291/2634
    • A method and apparatus for analyzing a deposited layer on the inner surface of a fluid container wall having inner and outer surfaces are disclosed. One embodiment of the method comprises (a) transmitting an acoustic signal from a transmitter at a first distance from the outer surface of the wall; (b) receiving a first received signal A, comprising a reflection from the wall outer surface; (c) receiving a second received signal B, comprising a reflection from the wall inner surface; (d) receiving a third received signal C from the wall inner surface; (e) calculating a coefficient Rwp from A, B and C, and (f) calculating a coefficient Rpd from A, B and Rwp, and calculating the acoustic impedance of the deposited layer Zd from Rwp, Rpd, and Zw, where Zw is the acoustic impedance of the material between the transmitter and the wall outer surface. A preferred embodiment of the apparatus comprises a piezoelectric or ferroelectric transducer having front and back faces; a backing member acoustically coupled to said transducer back face and impedance-matched to said transducer element, said backing member having proximal and remote faces; and a delay material disposed between said transducer front face and the wall outer surface.
    • 公开了一种用于分析具有内表面和外表面的流体容器壁的内表面上的沉积层的方法和装置。 该方法的一个实施例包括(a)从距离壁的外表面第一距离的发射器发射声信号; (b)接收第一接收信号A,包括来自所述壁外表面的反射; (c)接收第二接收信号B,其包括来自所述壁内表面的反射; (d)从所述壁内表面接收第三接收信号C; (e)从A,B和C计算系数Rwp,以及(f)从A,B和Rwp计算系数Rpd,并从Rwp,Rpd和Zw计算沉积层Zd的声阻抗,其中Zw为 发射机和墙外表面之间的材料的声阻抗。 该装置的优选实施例包括具有正面和背面的压电或铁电换能器; 声学耦合到所述换能器背面并与所述换能器元件阻抗匹配的背衬构件,所述背衬构件具有近端面和远端面; 以及设置在所述换能器前表面和所述壁外表面之间的延迟材料。
    • 3. 发明授权
    • Guided acoustic wave sensor for pipeline build-up monitoring and characterization
    • 引导声波传感器,用于管道建立监测和表征
    • US06568271B2
    • 2003-05-27
    • US09850962
    • 2001-05-08
    • Vimal V. ShahJames R. BirchakWei HanBruce H. StormRajnikant M. AminBayram KalpakciFouad Fleyfel
    • Vimal V. ShahJames R. BirchakWei HanBruce H. StormRajnikant M. AminBayram KalpakciFouad Fleyfel
    • G01N2920
    • G01N29/11G01N29/4472G01N29/449G01N2291/0258G01N2291/02854G01N2291/0422G01N2291/0427G01N2291/057G01N2291/105G01N2291/2634
    • A system for monitoring the presence of deposits or buildup on the inside wall of a fluid-containing pipe comprises a pair of acoustic transmitters outside of the pipe and spaced apart along the length of the pipe and capable of transmitting an acoustic signal into the pipe wall, a pair of acoustic receivers outside of the pipe and spaced apart along the length of the pipe and capable of receiving an acoustic signal from the pipe wall, and a power source for causing the transmitters to transmit a signal. A method for monitoring the presence of deposits or buildup on the inside wall of a fluid-containing pipe, comprises (a) providing first and second acoustic transmitters outside of the pipe and spaced apart along the length of the pipe and capable of transmitting an acoustic signal into the pipe wall, (b) providing first and second acoustic receivers outside of the pipe and spaced apart along the length of the pipe and capable of receiving an acoustic signal from the pipe wall, (c) transmitting a first signal from the first transmitter, (d) measuring the amplitude of the first signal received at the first and second receivers as A11 and A12, respectively, (e) transmitting a second signal from the second transmitter, (f) measuring the amplitude of the second signal received at the first and second receivers as A21 and A22, respectively, and (g) calculating the attenuation of the signal over the length of pipe using the values of A11, A12, A21 and A22.
    • 用于监测流体容纳管的内壁上的沉积物或积聚物的存在的系统包括在管的外部的一对声发射体,并沿着管的长度间隔开,并且能够将声信号传输到管壁 ,一对声学接收器,位于管道外部并沿着管道的长度间隔开并且能够从管壁接收声学信号,以及用于使发射器发射信号的电源。 一种用于监测在含流体管道的内壁上的沉积物或积聚物的存在的方法包括:(a)在管道外部提供第一和第二声发射器,并沿管道的长度间隔开并且能够传输声学 信号进入管壁,(b)在管道外部提供第一和第二声学接收器并沿着管道的长度间隔开并且能够从管壁接收声学信号,(c)从第一个 (d)分别测量在第一和第二接收机处接收的第一信号的振幅为A11和A12;(e)从第二发射机发送第二信号;(f)测量在第一和第二接收机接收的第二信号的振幅, 分别为A21和A22的第一和第二接收机,(g)使用A11,A12,A21和A22的值计算管道长度上信号的衰减。
    • 4. 发明授权
    • Method and apparatus for pulsed ultrasonic doppler measurement of wall deposition
    • 用于脉冲超声多普勒测量壁沉积的方法和装置
    • US06470749B1
    • 2002-10-29
    • US09851509
    • 2001-05-08
    • Wei HanJames R. BirchakCrispin L. RichardsVimal V. ShahBruce H. StormRajnikant M. Amin
    • Wei HanJames R. BirchakCrispin L. RichardsVimal V. ShahBruce H. StormRajnikant M. Amin
    • G01N2900
    • G01B17/02G01N29/024G01N29/07G01N29/38G01N29/449G01N2291/011G01N2291/017G01N2291/02854G01N2291/102G01N2291/2634
    • A method for monitoring and measuring the buildup of deposits on the inner surface of a pipeline containing flowing fluid comprises (a) transmitting a first acoustic signal into the pipeline through the pipeline wall, (b) receiving echoes of the transmitted signal, and (c) determining from the received echoes how far from the pipeline inner surface the interface between the deposits and the flowing fluid lies. An alternative method for monitoring and measuring the buildup of deposits on the inner surface of a pipeline containing flowing fluid comprises (a) transmitting a first acoustic signal into the pipeline through the pipeline wall, (b) receiving echoes of the signal, and (c) using the Doppler frequency shift of the received echoes to determine how far from the pipeline inner surface the interface between the deposits and the flowing fluid lies. An apparatus for monitoring and measuring the buildup of deposits on the inner surface of a pipeline containing flowing fluid, comprises a first transmitter in acoustic communication with the pipeline wall and generating a transmitted signal, a first receiver in acoustic communication with the pipeline wall generating received echo signal from a received signal comprising the reflection of the transmitted signal off the flowing fluid, and a microprocessor for determining from the received echo signal how far from the pipeline inner surface the interface between the deposits and the flowing fluid lies.
    • 一种用于监测和测量包含流动流体的管道的内表面上的沉积物积累的方法,包括(a)通过管道壁将第一声信号传输到管道中,(b)接收所发射信号的回波,和(c )从接收到的回波确定离开管道内表面有多远,沉积物和流动流体之间的界面位于。 用于监测和测量包含流动流体的管道的内表面上的沉积物积累的替代方法包括(a)通过管道壁将第一声信号传输到管道中,(b)接收信号的回波,和(c )使用接收到的回波的多普勒频移来确定离开管道内表面的距离,沉积物和流动流体之间的界面位于多远处。 一种用于监测和测量包含流动流体的管道的内表面上的沉积物积累的装置,包括与管道壁声学连通并产生传输信号的第一发射器,与接收的管道壁声学连通的第一接收器 来自接收信号的回波信号包括从流动流体反射的发射信号;以及微处理器,用于根据接收到的回波信号确定沉积物和流动流体之间的界面离管道内表面有多远。
    • 7. 发明授权
    • Vibrational forced mode fluid property monitor and method
    • 振动强制模式液体性能监测及方法
    • US06412354B1
    • 2002-07-02
    • US09464728
    • 1999-12-16
    • James R. BirchakMark A. ProettThomas E. RitterVimal V. ShahCurtis M. Vickery
    • James R. BirchakMark A. ProettThomas E. RitterVimal V. ShahCurtis M. Vickery
    • G01F184
    • G01N29/036G01N9/002G01N29/348G01N29/449G01N29/46G01N2291/02491G01N2291/02818G01N2291/02836G01N2291/102
    • A fluid property monitor includes a transducer assembly to impart multiple frequency energy to a conduit in one or more modes and to receive resonant frequency energy from the conduit. The resonant frequency energy is responsive to the imparted energy, the conduit and a fluid in the conduit. The fluid property monitor can also be defined as including: a frequency signal generator connected to cause multiple frequency energy to be transferred to a conduit having a fluid to be monitored; and a spectral analysis signal processor connected to receive and process electrical signals generated in response to vibrations propagated through the conduit and the fluid in the conduit in response to transferred multiple frequency energy. Particular implementations can be adapted as a densitometer, a coherent flow detector, and other particular fluid parameter detectors. A method of monitoring a fluid includes: imparting multiple frequency vibration-inducing energy to a conduit and fluid system; and sensing a plurality of frequency signals from the conduit and fluid system responsive to at least part of the imparted multiple frequency vibration-inducing energy. This method can also include determining at least one characteristic of the conduit and fluid system in response to the sensed plurality of frequency signals.
    • 流体特性监测器包括换能器组件,其以一种或多种模式将多个频率能量传递到导管并且从该导管接收共振频率能量。 谐振频率能量响应于所施加的能量,导管和导管中的流体。 流体特性监视器还可以被定义为包括:频率信号发生器,其被连接以使多个频率能量传递到具有待监测流体的导管; 以及频谱分析信号处理器,其被连接以响应于传送的多个频率能量响应于通过导管传播的振动和导管中的流体而产生的电信号。 特定的实施方案可以适用于密度计,相干流检测器和其它特定的流体参数检测器。 监测流体的方法包括:向导管和流体系统施加多频率振动诱发能量; 以及响应于所施加的多频率振动诱发能量的至少一部分,从所述导管和流体系统感测多个频率信号。 该方法还可以包括响应于感测到的多个频率信号确定导管和流体系统的至少一个特征。
    • 10. 发明授权
    • Low frequency acoustic attenuator for use in downhole applications
    • 低频声衰减器用于井下应用
    • US07210555B2
    • 2007-05-01
    • US10882915
    • 2004-06-30
    • Vimal V. ShahEugene J. LinyaevDonald G. KyleWallace R. Gardner
    • Vimal V. ShahEugene J. LinyaevDonald G. KyleWallace R. Gardner
    • F16F15/02F16F7/00G01V1/04G01V1/16
    • E21B47/16G01V1/523
    • An acoustic attenuator includes a housing having an inner side surface which defines an interior chamber and at least one dampening member both physically and acoustically coupled to the housing and projecting into the interior chamber. Acoustic energy propagating within the housing is deflected into the dampening members for acoustically dispersal within the interior chamber. In various aspects thereof, the dampening members may include one or a group of two or more generally cylindrical sleeves having one end both physically and acoustically coupled to the housing and a second end projecting into the interior chamber. Preferably, when a group of two or more cylindrical sleeves are employed, the sleeves are nested within one another. The dampening members may further include a second, oppositely disposed, group of two or more acoustic attenuators nested within one another and interdigitated with the first group of cylindrical sleeves.
    • 声衰减器包括壳体,该壳体具有限定内腔的内侧表面和至少一个阻尼构件,物理和声学耦合到壳体并突出到内腔中。 在壳体内传播的声能被偏转到阻尼构件中,用于在内腔内声扩散。 在其各个方面,阻尼构件可以包括一个或一组两个或更多个大致圆柱形的套筒,其中一个端部物理上和声学上耦合到壳体,第二端突出到内部腔室中。 优选地,当使用一组两个或更多个圆柱形套筒时,套筒彼此嵌套。 阻尼构件还可以包括彼此嵌套的两个或更多个声衰减器的第二相对设置的组,并与第一组圆柱形套筒相互指向。