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    • 1. 发明申请
    • Method for calibrating a volumetric flow meter having an array of sensors
    • 用于校准具有传感器阵列的体积流量计的方法
    • US20070067116A1
    • 2007-03-22
    • US11603686
    • 2006-11-21
    • Paul RothmanDaniel GyslingDouglas LooseAlex Kravets
    • Paul RothmanDaniel GyslingDouglas LooseAlex Kravets
    • G01F23/00
    • G01F1/7082G01F1/363G01F1/712G01F1/74
    • A method and apparatus are provided for calibrating a flow meter having an array of sensors arranged in relation to a pipe that measures a flow rate of a fluid flowing in the pipe. The method features the step of calibrating the flow rate using a calibration correction function based on one or more parameters that characterize either the array of sensors, the pipe, the fluid flowing in the pipe, or some combination thereof. The calibration correction function depends on either a ratio t/D of the pipe wall thickness (t) and the pipe inner diameter (D); a ratio t/λ of the pipe wall thickness (t) and the eddie wavelength (λ) of the fluid; a Reynolds number (ρUD/μ) that characterizes the fluid flow in the pipe; a ratio Δx/D of the sensor spacing (Δx) and the pipe inner diameter (D); a ratio fΔx/Umeas of usable frequencies in relation to the sensor spacing (Δx) and the raw flow rate (Umeas); or some combination thereof. The apparatus takes the form of a flow meter having a calibration correction function module performing the aforementioned functionality.
    • 提供了一种用于校准具有相对于管道布置的传感器阵列的流量计的方法和装置,其测量流体在管道中流动的流体的流量。 该方法的特征在于使用基于表征传感器阵列,管道,在管道中流动的流体或其一些组合的一个或多个参数的校准校正功能来校准流量的步骤。 校准校正功能取决于管壁厚度(t)的比t / D和管内径(D); 管壁厚度(t)的比t /λ和流体的eddie波长(λ); 雷诺数(rhoUD / mu)表征管道中的流体流动; 传感器间距(Deltax)和管内径(D)的比值Deltax / D; 相对于传感器间隔(Deltax)和原始流量(U>>)的可用频率的比率fDeltax / U< / SUB> 或其某些组合。 该装置采用具有执行上述功能的校准校正功能模块的流量计的形式。
    • 4. 发明申请
    • Sand monitoring within wells using acoustic arrays
    • 使用声阵列在井内进行沙井监测
    • US20050109112A1
    • 2005-05-26
    • US11028974
    • 2005-01-04
    • Daniel GyslingDouglas Loose
    • Daniel GyslingDouglas Loose
    • G01F1/708G01F1/712G01N15/06G01N29/04G01N29/02E21B47/06G01H9/00
    • G01F1/7082G01F1/712G01N15/06G01N29/046G01N2291/02416G01N2291/02836G01N2291/02872
    • A method for detecting the presence of particles, such as sand, flowing within a fluid in a conduit is disclosed. At least two optical sensors measure pressure variations propagating through the fluid. These pressure variations are caused by acoustic noise generated by typical background noises of the well production environment and from sand particles flowing within the fluid. If the acoustics are sufficiently energetic with respect to other disturbances, the signals provided by the sensors will form an acoustic ridge on a kω plot, where each data point represents the power of the acoustic wave corresponding to that particular wave number and temporal frequency. A sand metric then compares the average power of the data points forming the acoustic ridge to the average power of the data points falling outside of the acoustic ridge. The result of this comparison allows one to determine whether particles are present within the fluid. Furthermore, the present invention can also determine whether the generated acoustic noise is occurring upstream or downstream of the sensors, thus giving an indication of the location of the particles in the fluid relative to the sensors.
    • 公开了一种用于检测在管道中的流体内流动的颗粒(例如沙子)的存在的方法。 至少两个光学传感器测量通过流体传播的压力变化。 这些压力变化是由生产环境的典型背景噪声和流体内的砂粒产生的声音噪声引起的。 如果声音相对于其他扰动具有足够的能量,则传感器提供的信号将在komega图上形成声脊,其中每个数据点表示对应于该特定波数和时间频率的声波的功率。 然后,砂度量将形成声脊的数据点的平均功率与落在声脊外的数据点的平均功率进行比较。 该比较的结果允许确定颗粒是否存在于流体内。 此外,本发明还可以确定所产生的声学噪声是否发生在传感器的上游或下游,从而给出相对于传感器的流体中颗粒位置的指示。
    • 5. 发明申请
    • Apparatus and method for compensating a coriolis meter
    • 用于补偿科里奥利计的装置和方法
    • US20070125154A1
    • 2007-06-07
    • US11642168
    • 2006-12-20
    • Daniel GyslingPatrick CurryDouglas LooseThomas Banach
    • Daniel GyslingPatrick CurryDouglas LooseThomas Banach
    • G01N9/00G01F15/02G01F1/84G01F1/86
    • G01F15/024G01F1/74G01F1/8413G01F1/8477G01F25/0007G01N9/002G01N2291/02818
    • A flow measuring system is provided that provides at least one of a compensated mass flow rate measurement and a compensated density measurement. The flow measuring system includes a gas volume fraction meter in combination with a coriolis meter. The GVF meter measures acoustic pressures propagating through the fluids to measure the speed of sound αmix propagating through the fluid to calculate at least gas volume fraction of the fluid and/or the reduced natural frequency. For determining an improved density for the coriolis meter, the calculated gas volume fraction and/or reduced frequency is provided to a processing unit. The improved density is determined using analytically derived or empirically derived density calibration models (or formulas derived therefore), which is a function of the measured natural frequency and at least one of the determined GVF, reduced frequency and speed of sound, or any combination thereof. The gas volume fraction (GVF) meter may include a sensing device having a plurality of strain-based or pressure sensors spaced axially along the pipe for measuring the acoustic pressures propagating through the flow.
    • 提供流量测量系统,其提供补偿的质量流量测量和补偿密度测量中的至少一个。 流量测量系统包括与科里奥利仪表组合的气体体积分数计。 GVF测量仪测量通过流体传播的声学压力,以测量通过流体传播的声音混合物的速度,以至少计算流体的气体体积分数和/或降低的固有频率。 为了确定科里奥利仪表的改进的密度,将计算的气体体积分数和/或降低的频率提供给处理单元。 使用分析导出或经验导出的密度校准模型(或因此导出的公式)确定改善的密度,其是测量的固有频率和确定的GVF,降低的频率和声速的至少一个或其任何组合的函数的函数 。 气体体积分数(GVF)计可以包括具有多个基于应变或压力传感器的传感装置,该传感器沿管道轴向间隔开,用于测量通过流动传播的声压。
    • 7. 发明申请
    • 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
    • US20070062254A1
    • 2007-03-22
    • US11500073
    • 2006-08-07
    • Daniel GyslingDouglas Loose
    • Daniel GyslingDouglas Loose
    • G01N29/02
    • G01F1/7082B03D1/02B03D1/1431G01N29/024G01N29/46G01N2291/02433G01N2291/02836G01N2291/02872Y10T137/87354
    • 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。
    • 8. 发明申请
    • Apparatus and method for providing a fluid cut measurement of a multi-liquid mixture compensated for entrained gas
    • 用于提供补充夹带气体的多液体混合物的流体切割测量的装置和方法
    • US20060053869A1
    • 2006-03-16
    • US11227713
    • 2005-09-15
    • Daniel GyslingDouglas Loose
    • Daniel GyslingDouglas Loose
    • G01N33/28G01N22/00
    • G01N22/00G01N9/36G01N29/024G01N29/222G01N33/28G01N33/2823G01N2291/0224G01N2291/024G01N2291/02433G01N2291/02827G01N2291/02836G01N2291/02872
    • An apparatus for determining a fluid cut measurement of a multi-liquid mixture includes a first device configured to sense at least one parameter of the mixture to determine a fluid cut of a liquid in the mixture. A second device is configured to determine a concentration of gas in the mixture in response to a speed of sound in the mixture; and a signal processor is configured to adjust the fluid cut of the liquid using the concentration of the gas to determine a compensated fluid cut of the liquid. The parameter of the mixture sensed by the first device may include a density of the mixture (e.g., by way of a Coriolis meter), a permittivity of the mixture (e.g., by way of a resonant microwave oscillator), or an amount of microwave energy absorbed by the mixture (e.g., by way of a microwave absorption watercut meter). The signal processor may employ different correction factors depending on the type of fluid cut device used. The second device may include a gas volume fraction meter.
    • 用于确定多液体混合物的流体切割测量的装置包括构造成感测混合物的至少一个参数以确定混合物中液体的流体切割的第一装置。 第二装置被配置为响应混合物中的声速来确定混合物中气体的浓度; 并且信号处理器被配置为使用气体的浓度调节液体的液体切割以确定液体的补偿流体切割。 由第一装置感测的混合物的参数可以包括混合物的密度(例如,通过科里奥利计),混合物的介电常数(例如通过谐振微波振荡器)或微波的量 由混合物吸收的能量(例如,通过微波吸收水切割仪)。 信号处理器可以根据所使用的流体切割装置的类型使用不同的校正因子。 第二装置可以包括气体体积分数计。
    • 10. 发明申请
    • TOTAL GAS METER USING SPEED OF SOUND AND VELOCITY MEASUREMENTS
    • 使用声速和速度测量速度的总气量计
    • US20070234780A1
    • 2007-10-11
    • US11762407
    • 2007-06-13
    • Daniel GyslingDouglas Loose
    • Daniel GyslingDouglas Loose
    • G01N29/024
    • G01F1/74G01F1/666G01N29/024G01N29/222G01N29/46G01N2291/0215G01N2291/02433G01N2291/02836G01N2291/02872G01N2291/048
    • An apparatus is provided for measuring total gas content of a fluid flowing through a process line. The apparatus comprises a bleed line in fluid communication with the process line for bleeding a portion of the fluid from the process line at a bleed line pressure that is lower than the process line pressure. A speed of sound propagating through the fluid in the bleed line is determined and is, in turn, used to determine a gas volume fraction of the fluid in the bleed line. In one aspect, the total gas content of the fluid flowing through the process line is calculated as a function of the gas volume fraction of the fluid in the bleed line and a velocity of the fluid in the bleed line. In another aspect, the velocity of the fluid in the bleed line is adjusted to be approximately equal to a predetermined velocity. In yet another aspect, dissolved gas in the process fluid 13 is released before the gas content measurement point by applying a high intensity ultrasonic field to the fluid 13.
    • 提供一种用于测量流过工艺管线的流体的总气体含量的装置。 该装置包括与处理管线流体连通的排放管线,用于以低于处理管线压力的排出管线压力将来自处理管线的一部分流体排出。 确定在渗流线中通过流体传播的声速,并且进而用于确定排放管线中的流体的气体体积分数。 在一个方面,流过生产线的流体的总气体含量是根据排放管道中的流体的气体体积分数和排出管线中流体的速度来计算的。 在另一方面,将排出管线中的流体的速度调节为近似等于预定速度。 在另一方面,通过向流体13施加高强度超声波场,在气体含量测量点之前释放过程流体13中的溶解气体。