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    • 41. 发明授权
    • Fluid parameter measurement in pipes using acoustic pressures
    • 使用声压测量管道中的流体参数
    • US06862920B2
    • 2005-03-08
    • US10060114
    • 2002-01-29
    • Daniel L. GyslingAlan D. KerseyJames D. Paduano
    • Daniel L. GyslingAlan D. KerseyJames D. Paduano
    • G01F1/66G01F1/86G01N29/024G01N29/42G01N29/46G01N29/00
    • G01H5/00G01N29/024G01N29/42G01N29/46G01N2291/0217G01N2291/0222G01N2291/0224G01N2291/02836G01N2291/02845G01N2291/02872G01N2291/106
    • At least one parameter of at least one fluid in a pipe is measured using a spatial array of acoustic pressure sensors placed at predetermined axial locations along the pipe 12. The pressure sensors provide acoustic pressure signals, which are provided to a signal processing system that determines the speed of sound amix of the fluid (or mixture) in the pipe 12 using acoustic spatial array signal processing techniques. Numerous spatial array processing techniques may be employed to determine the speed of sound amix. The speed of sound amix is provided to another logic system that calculates the percent composition of the mixture, e.g., water fraction, or any other parameter of the mixture or fluid which is related to the sound speed amix. The signal processing system may also determine the Mach number Mx of the fluid. The acoustic pressure signals measured are lower frequency (and longer wavelength) signals than those used for ultrasonic flow meters, and thus are more tolerant to inhomogeneities in the flow. No external source is required and thus may operate using passive listening. The invention will work with arbitrary sensor spacing and with as few as two sensors if certain information is known about the acoustic properties of the system.
    • 使用放置在沿着管12的预定轴向位置处的声压传感器的空间阵列来测量管道中的至少一种流体的至少一个参数。压力传感器提供声压信号,其被提供给确定 使用声学空间阵列信号处理技术,管道12中的流体(或混合物)的声音的速度。 可以采用许多空间阵列处理技术来确定声音的速度。 声音amix的速度被提供给另一个逻辑系统,该逻辑系统计算混合物的组成百分比,例如水分数,或与声速amix相关的混合物或流体的任何其它参数。 信号处理系统还可以确定流体的马赫数Mx。 所测量的声压信号比用于超声波流量计的频率(和较长波长)信号低,因此更容忍流量不均匀性。 不需要外部来源,因此可以使用被动收听操作。 如果关于系统的声学特性的某些信息已知,本发明将适用于任意的传感器间距,并且具有少至两个传感器。
    • 42. 发明授权
    • Circumferential strain attenuator
    • 圆周应变衰减器
    • US06550342B2
    • 2003-04-22
    • US09726061
    • 2000-11-29
    • Paul F. CroteauDaniel L. GyslingJames M. Diener
    • Paul F. CroteauDaniel L. GyslingJames M. Diener
    • G01L124
    • G01L1/246G01D5/268G01F1/00G01H9/004G01V1/523
    • An apparatus for varying the gain of a fiber optic sensor that non-intrusively senses the strain response of a pipe is provided. The apparatus includes a circumferential strain attenuator that has an annular land portion that mechanically couples the attenuator to the pipe. An annular web extends coaxially from the land portion and has a reduced cross sectional area relative to the land, and an annular mandrel portion extends coaxially from the web portion and forms a gap between the pipe and the mandrel. The fiber optic sensor is wound on the circumferential strain attenuator. The web and mandrel cooperate to reduce the strain response of the fiber optic sensor relative to the strain response of the pipe.
    • 提供了一种用于改变光纤传感器的增益的装置,其非侵入式地感测管道的应变响应。 该装置包括周向应变衰减器,其具有将衰减器机械耦合到管道的环形陆部。 环形腹板从陆部同轴地延伸并且具有相对于平台的减小的横截面积,并且环形心轴部分从腹板部分同轴地延伸并在管和心轴之间形成间隙。 光纤传感器缠绕在周向应变衰减器上。 纤维网和心轴配合以减小光纤传感器相对于管的应变响应的应变响应。
    • 43. 发明授权
    • Fiber optic pressure sensor for DC pressure and temperature
    • 用于直流压力和温度的光纤压力传感器
    • US06351987B1
    • 2002-03-05
    • US09548792
    • 2000-04-13
    • Charles R. WinstonDaniel L. GyslingMark R. MyersAlan D. KerseyRebecca S. McGuinn
    • Charles R. WinstonDaniel L. GyslingMark R. MyersAlan D. KerseyRebecca S. McGuinn
    • G01N1100
    • G01L19/0092E21B47/00G01D5/35383G01L9/0007G01L11/025G01L11/04G01L19/0023G01N33/2823
    • A DC pressure and temperature sensor system for sensing and measuring the DC pressure and temperature of a production fluid (such as oil, gas and water mixtures) in tubing, such as tubing used to extract production fluid from a drilled site. The sensor system includes at least one fluid sensor, but sometimes two. Only one is needed if either the DC pressure or temperature of the production fluid (but not both) is provided by an independent measurement. In general, though, the sensor system includes: a first and second fluid sensor, the first using a first sensing material, and the second using a second sensing material in which sound travels at a rate that depends on the DC pressure and temperature of the second sensing material in a measurably different way than for the first sensing material. Each sensing material is coupled to the production fluid, preferably via a thin-walled membrane, so as to be at a DC pressure and temperature that is, preferably, the same as for the production fluid. Each fluid sensor is used to provide information about the speed of sound in its sensing material, and since the speed of sound depends on the DC pressure and temperature of the sensing material, in providing information about the speed of sound, each fluid sensor also provides information about the DC pressure and temperature of the sensing material, which is either the same as that of the production fluid or can be correlated to that of the production fluid.
    • 直流压力和温度传感器系统,用于感测和测量管道中的生产流体(如油,气体和水混合物)的直流压力和温度,例如用于从钻孔部位提取生产流体的管道。 传感器系统包括至少一个流体传感器,但有时两个。 如果生产流体(但不是两者)的直流压力或温度是通过独立测量提供的,则只需要一个。 然而,通常,传感器系统包括:第一和第二流体传感器,第一和第二流体传感器,第一和第二流体传感器,第一和第二流体传感器,第一和第二流体传感器,第一和第二流体传感器,第一和第二流体传感器, 第二感测材料以与第一感测材料相比可测量的方式不同。 每个感测材料优选通过薄壁膜与生产流体相连,以便处于与制备流体相同的DC压力和温度。 每个流体传感器用于提供关于其感测材料中的声速的信息,并且由于声音的速度取决于传感材料的直流压力和温度,在提供关于声速的信息时,每个流体传感器还提供 关于传感材料的直流压力和温度的信息,其与生产流体的直流压力和温度相同,或者可以与生产流体的相关。
    • 44. 发明授权
    • Mandrel-wound fiber optic pressure sensor
    • 心轴缠绕光纤压力传感器
    • US06233374B1
    • 2001-05-15
    • US09326097
    • 1999-06-04
    • Peter C. OgleDaniel L. Gysling
    • Peter C. OgleDaniel L. Gysling
    • G02B600
    • G02B6/29319G01L11/025G02B6/29398
    • A dynamic pressure sensor with measures for its operation in high temperature and high pressure environments. The sensor uses at least one winding about a deformable mandrel of an optical fiber inscribed by a Bragg grating at its beginning and another at the end of the winding. To counter the effects of high ambient static pressure and temperature, various steps are taken: the mandrel is filled with a high-viscosity low bulk modulus fluid, such as a silicone fluid, and is provided with a baffle system that regulates the flow of the fluid between spans around which the optical fiber is wound. The baffle system is based either on protuberances on a core rod inserted into the mandrel and a system of pinhole size passageways through the protuberances, or based on an open cell foam or fibrous material located on a core rod within a span covered by a stiff jacket. In addition, in high pressure gradient applications, the mandrel is pinched off at different locations along its length. To keep static strain low in the optical fiber windings, the mandrel is covered with materials soft enough that the tension-wound optical fiber can cut into the materials instead of building up unacceptable static strain.
    • 动态压力传感器,可在高温高压环境下运行。 传感器在其开始处使用由布拉格光栅内接的光纤的可变形心轴周围的至少一个绕组,并且在绕组的末端使用至少一个绕组。 为了对抗高环境静态压力和温度的影响,采取了各种步骤:心轴填充有高粘度低体积弹性模量流体,例如硅氧烷流体,并且设置有挡板系统,其调节流体的流动 卷绕光纤的跨度之间的流体。 挡板系统基于插入心轴中的芯杆上的突起和通过突起的针孔尺寸通道的系统,或基于位于由刚性护套覆盖的跨度内的芯杆上的开孔细胞泡沫或纤维材料 。 此外,在高压梯度应用中,心轴沿其长度在不同位置被夹紧。 为了在光纤绕组中保持低的静态应变,心轴被足够软的材料覆盖,使得张力缠绕光纤可以切割成材料,而不是建立不可接受的静态应变。
    • 46. 发明授权
    • Apparatus for the dynamic control of rotating stall and surge in turbo
machines and the like
    • 用于动态控制涡轮机等的旋转失速和喘振的装置
    • US5437539A
    • 1995-08-01
    • US197657
    • 1994-02-17
    • Daniel L. GyslingJonathan S. Simon
    • Daniel L. GyslingJonathan S. Simon
    • F04D3/00F04D15/00F04D27/02F04D29/44F04D19/02
    • F04D29/442F04D15/0027F04D15/0055F04D27/02F04D3/00F05D2270/101
    • The invention is a turbo machine comprising a rotatably mounted blade row, such as a compressing or pumping rotor and apparatus for providing aerodynamic feedback to the blade row which feedback apparatus has substantially zero pressure difference across it. The feedback may be provided by various apparatus, including at least one free-rotor that is mounted in aerodynamic feedback with the blade row, for instance coaxially with respect to the axis of rotation of the blade row and freely rotatably with respect to the blade row. The free-rotor may also be located in ductwork in communication with the blade row. The feedback may also be provided by a blade row having a variable stagger angle and apparatus to adjust the stagger angle so that the mean pressure rise across the variable stagger angle blade row is zero. The invention also includes a method for controlling operating anomalies such as rotating stall and surge of a turbo machine such as a compressor using the above described apparatus.
    • 本发明是一种涡轮机,其包括可旋转地安装的叶片排,例如用于向叶片排提供空气动力反馈的压缩或泵送转子和装置,该反馈装置在其上具有基本上零的压力差。 反馈可以由各种装置提供,包括至少一个安装在与叶片排的空气动力学反馈中的自由转子,例如相对于叶片排的旋转轴线同轴并相对于叶片排自由旋转 。 自由转子也可以位于与叶片排连通的管道系统中。 反馈还可以由具有可变交错角的叶片排和装置来提供,以调整交错角,使得跨越可变交错角叶片排的平均压力升高为零。 本发明还包括一种用于使用上述装置来控制诸如压缩机的涡轮机的旋转失速和喘振的操作异常的方法。
    • 47. 发明授权
    • Passive structural and aerodynamic control of compressor surge
    • 压缩机浪涌的被动结构和空气动力学控制
    • US5199856A
    • 1993-04-06
    • US317441
    • 1989-03-01
    • Alan H. EpsteinEdward M. GreitzerDaniel L. GyslingJohn DugundjiGerald R. Guenette
    • Alan H. EpsteinEdward M. GreitzerDaniel L. GyslingJohn DugundjiGerald R. Guenette
    • F04B39/00
    • F04B39/0061Y10T137/86043
    • A compressor or pump is connected to a discharge plenum. The plenum includes a movable wall whose motion varies the volume of the plenum. The wall is connected to passive elements forming a spring-mass-damper system whose characteristics are selected to damp pressure fluctuations in the plenum which would give rise to pumping system instabilities. In another aspect of the invention, a compressor is connected to a discharge plenum which in turn is connected to an exit throttle. The throttle includes a movable portion whose motion varies the throttle area. The movable portion is connected to passive elements forming a spring-mass-damper system selected to damp pressure fluctuations in the plenum. In another embodiment, the plenum communicates with a fixed area throttle and a variable area throttle. The variable area throttle includes a movable portion connected to passive elements selected to damp pressure fluctuations in the plenum. Aerodynamic surge control is effected by coupling a second Helmholtz resonator to the plenum.
    • 压缩机或泵连接到排气室。 增压室包括一个活动壁,其运动改变了增压室的体积。 壁连接到形成弹簧 - 质量 - 阻尼器系统的无源元件,其特性被选择以减轻增压室中的压力波动,这将导致泵送系统不稳定性。 在本发明的另一方面,压缩机连接到排气室,排气室又连接到出口节流阀。 节气门包括其运动改变节流区域的可动部分。 可移动部分连接到形成弹簧 - 质量 - 阻尼器系统的被动元件,该弹簧 - 质量 - 阻尼器系统被选择以阻尼气室中的压力波动。 在另一个实施例中,气室与固定区域节气门和可变区域节流阀连通。 可变区域节流阀包括连接到被选择用于减小增压室中的压力波动的无源元件的可动部分。 气动浪涌控制通过将第二亥姆霍兹共振器耦合到增压室来实现。
    • 48. 发明授权
    • Ultrasonic fluid flow meter housing with acoustically matched base
    • 超音波流量计外壳配有声学匹配的底座
    • US08402840B2
    • 2013-03-26
    • US12797383
    • 2010-06-09
    • Daniel L. GyslingChangJiu Dang
    • Daniel L. GyslingChangJiu Dang
    • G01F1/66
    • G01F1/662
    • A device for sensing fluid flow within a pipe, which pipe has a pipe wall, is provided. The device includes a sensor housing and a fluid flow meter. The sensor housing includes at least one pressure vessel enclosure and hardware for mounting the enclosure on an exterior surface of the pipe wall. The enclosure includes a base, side walls, and a cap. The enclosure base has a pipe-side surface that mates with the exterior surface of the pipe wall. The enclosure base and the pipe wall have substantially similar resonant frequencies and acoustic impedance. The sensor housing is adapted to be attached to the pipe wall such that the pipe-side surface of the base is mated with the exterior surface of the pipe wall. The fluid flow meter includes a plurality of ultrasonic sensors disposed within the at least one pressure vessel enclosure. Each sensor has a transmitter and a receiver. The transmitters are adapted to transmit signals at one or more frequencies, including frequencies that are substantially equal to the resonant frequencies of the base and pipe wall.
    • 提供一种用于检测管道内的流体流动的装置,该管道具有管壁。 该装置包括传感器壳体和流体流量计。 传感器外壳包括至少一个压力容器外壳和用于将外壳安装在管壁的外表面上的硬件。 外壳包括底座,侧壁和盖子。 外壳基座具有与管壁的外表面配合的管侧表面。 外壳基座和管壁具有基本相似的谐振频率和声阻抗。 传感器壳体适于附接到管壁,使得基座的管侧表面与管壁的外表面配合。 流体流量计包括设置在至少一个压力容器外壳内的多个超声波传感器。 每个传感器都有一个发射器和一个接收器。 发射机适于以一个或多个频率发射信号,包括基本上等于基座和管壁谐振频率的频率。
    • 49. 发明授权
    • Method and apparatus for making a water cut determination using a sequestered liquid-continuous stream
    • 使用隔离液体连续流进行水分测定的方法和装置
    • US08286466B2
    • 2012-10-16
    • US12479303
    • 2009-06-05
    • Daniel L. Gysling
    • Daniel L. Gysling
    • G01N29/02G01N29/22
    • G01F1/74G01F1/36G01F1/668
    • An apparatus and method for determining the water cut value of a multiphase fluid flowing within a pipe is provided. The device includes a sequestering structure disposed within the pipe, a transmitting device, a receiving device, and a processing device. The sequestering structure at least partially defines a sensing passage within the pipe, which passage has a gap extending substantially normal to a direction of fluid flow within the pipe. The sensing passage is oriented to sequester an amount of a liquid component of the multi-phase fluid sufficient to form a continuous liquid body extending across the gap of the sensing passage. The transmitting device is operable to transmit a signal through the liquid across the gap of the sensing passage. The receiving device is operable to receive the signal after it has traversed the liquid within the sensing passage, and create sensor data. The processing device is in communication with at least the receiving device to receive and process the sensor data to determine the water cut value of the liquid.
    • 提供一种用于确定在管内流动的多相流体的水分值的装置和方法。 该设备包括设置在管道内的隔离结构,发送设备,接收设备和处理设备。 隔离结构至少部分地限定了管道内的感测通道,该通道具有基本上垂直于管道内的流体流动方向延伸的间隙。 感测通道被取向为隔离足以形成延伸穿过感测通道的间隙的连续液体的多相流体的液体组分的量。 发射装置可操作以通过穿过感测通道的间隙的液体传输信号。 接收装置可操作以在信号已经穿过感测通道中的液体之后接收信号,并且产生传感器数据。 处理装置至少与接收装置通信以接收和处理传感器数据,以确定液体的水分值。
    • 50. 发明授权
    • Measurement of entrained and dissolved gases in process flow lines
    • 测量工艺流程中夹带和溶解的气体
    • US08109127B2
    • 2012-02-07
    • US12494956
    • 2009-06-30
    • Daniel L. GyslingDouglas H. Loose
    • Daniel L. GyslingDouglas H. Loose
    • G01N29/024
    • G01F1/7082G01N29/024G01N29/46G01N2291/02433G01N2291/02836G01N2291/02872Y10T137/87354
    • A device for measurement of entrained and dissolved gas has a first module arranged in relation to a process line for providing a first signal containing information about a sensed entrained air/gas in a fluid or process mixture flowing in the process line at a process line pressure. The device features a combination of a bleed line, a second module and a third module. The bleed line is coupled to the process line for bleeding a portion of the fluid or process mixture from the process line at a bleed line pressure that is lower than the process pressure. The second module is arranged in relation to the bleed line, for providing a second signal containing information about a sensed bleed line entrained air/gas in the fluid or process mixture flowing in the bleed line. The third module responds to the first signal and the second signal, for providing a third signal containing information about a dissolved air/gas flowing in the process line based on a difference between the sensed entrained air/gas and the sensed bleed line entrained air/gas.
    • 用于测量夹带和溶解的气体的装置具有相对于处理线布置的第一模块,用于提供第一信号,该第一信号包含关于在处理管线中流动的流体或处理混合物中的感测夹带的空气/气体的信息, 。 该装置具有出血线,第二模块和第三模块的组合。 排出管线连接到工艺管线,用于将流体或处理混合物的一部分从处理管线以低于过程压力的排出管线压力渗出。 第二模块相对于排气管线布置,用于提供第二信号,其包含关于在渗流管线中流动的流体或过程混合物中感测到的排出管线夹带的空气/气体的信息。 第三模块响应于第一信号和第二信号,用于提供第三信号,其基于感测到的夹带的空气/气体和感测的排出管线夹带的空气/气体之间的差异提供含有关于在过程管线中流动的溶解的空气/气体的信息的第三信号, 加油站。