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1. 发明授权

US07587948B2 Flow rate measurement for industrial sensing applications using unsteady pressures 有权
标题翻译：使用不稳定压力的工业传感应用的流量测量
公开(公告)号：US07587948B2
公开(公告)日：2009-09-15
申请号：US11844653
申请日：2007-08-24
申请人： Daniel L. Gysling , Rebecca M. Bryant , Charles R. Winston
发明人： Daniel L. Gysling , Rebecca M. Bryant , Charles R. Winston
IPC分类号： G01F1/42
CPC分类号： G01F1/7086 , G01F1/708 , G01F1/7082 , G01F1/7084 , G01F1/712 , G01F1/74
摘要： An apparatus for use in an industrial process for measuring a velocity of a fluid moving in a pipe includes a probe disposed in said fluid flow. The probe includes a tube and an array of at least two sensors disposed at different axial locations along the tube. Each sensor measures inhomogeneous pressure disturbances at respective axial locations. Each sensor further provides a pressure signal. The apparatus also includes a signal processor, responsive to the pressure signals, to provide a signal indicative of the velocity of the fluid. In one embodiment, the sensors filter out wavelengths above a predetermined wavelength. At least one of the sensors comprises a strain gage disposed on a surface of the pipe. In one embodiment, the strain gage comprises a fiber optic strain gage. The apparatus may be configured to detect the velocity of any desired inhomogeneous pressure field in the flow.
摘要翻译：用于测量在管中移动的流体的速度的工业过程中的装置包括设置在所述流体流中的探针。探针包括管和至少两个传感器的阵列，其布置在沿着管的不同轴向位置处。每个传感器测量各个轴向位置处的不均匀压力扰动。每个传感器还提供压力信号。该装置还包括响应于压力信号的信号处理器，以提供指示流体速度的信号。在一个实施例中，传感器滤出高于预定波长的波长。至少一个传感器包括设置在管表面上的应变计。在一个实施例中，应变片包括光纤应变计。该装置可以被配置为检测流中任何所需的非均匀压力场的速度。

2. 发明授权

US06889562B2 Flow rate measurement for industrial sensing applications using unsteady pressures 有权
标题翻译：使用不稳定压力的工业传感应用的流量测量
公开(公告)号：US06889562B2
公开(公告)日：2005-05-10
申请号：US10007736
申请日：2001-11-08
申请人： Daniel L. Gysling , Rebecca M. Bryant , Charles R. Winston
发明人： Daniel L. Gysling , Rebecca M. Bryant , Charles R. Winston
IPC分类号： G01F1/708 , G01F1/712 , G01F1/74 , G01F1/34
CPC分类号： G01F1/7086 , G01F1/712 , G01F1/74
摘要： Flow rate measurement system includes two measurement regions 14,16 located an average axial distance ΔX apart along the pipe 12, the first measurement region 14 having two unsteady pressure sensors 18,20, located a distance X1 apart, and the second measurement region 16, having two other unsteady pressure sensors 22,24, located a distance X2 apart, each capable of measuring the unsteady pressure in the pipe 12. Signals from each pair of pressure sensors 18,20 and 22,24 are differenced by summers 44,54, respectively, to form spatial wavelength filters 33,35, respectively. Each spatial filter 33,35 filters out acoustic pressure disturbances Pacoustic and other long wavelength pressure disturbances in the pipe 12 and passes short-wavelength low-frequency vortical pressure disturbances Pvortical associated with the vortical flow field 15. The spatial filters 33,35 provide signals Pas1,Pas2 to band pass filters 46,56 that filter out high frequency signals. The Pvortical -dominated filtered signals Pasf1,Pasf2 from the two regions 14,16 are cross-correlated by Cross-Correlation Logic 50 to determine a time delay τ between the two sensing locations 14,16 which is divided into the distance ΔX to obtain a convection velocity Uc(t) that is related to an average flow rate of the fluid (i.e., one or more liquids and/or gases) flowing in the pipe 12. The invention may also be configured to detect the velocity of any desired inhomogeneous pressure field in the flow. The invention may also be combined with an instrument, an opto-electronic converter and a controller in an industrial process control system.
摘要翻译：流量测量系统包括沿着管12分开的平均轴向距离DeltaX的两个测量区域14,16，第一测量区域14具有位于距离X 1分开的两个不稳定压力传感器18,20 以及第二测量区域16，其具有两个位于距离X 2 2的两个非稳态压力传感器22,24，每个能够测量管12中的不稳定压力。来自每对压力传感器18,20和22,24的信号分别由加和器44,44分别形成空间波长滤波器33,35。每个空间滤波器33,35滤除管12中的声压干扰声和其他长波长压力干扰，并且通过短波长的低频涡旋压力扰动P＆lt; Vortical＆lt; 与涡旋流场15相关联。空间滤波器33,35向滤波器输出高频信号的带通滤波器46,56提供信号P 1，N 2，P 2，...。来自两个区域14,16的P＆lt; S＆gt; Vortical＆lt; / SUB＆gt;域滤波信号P 1，S 2，P 2，...，以确定两个感测位置14,16之间的时间延迟τ，其被分成距离DeltaX以获得与流体的平均流速相关的对流速度U c（t）即，一个或多个液体和/或气体）流入管道12中。本发明还可以被配置为检测流中任何所需非均匀压力场的速度。本发明还可以与工业过程控制系统中的仪器，光电转换器和控制器组合。

3. 发明授权

US07261002B1 Flow rate measurement for industrial sensing applications using unsteady pressures 有权
标题翻译：使用不稳定压力的工业传感应用的流量测量
公开(公告)号：US07261002B1
公开(公告)日：2007-08-28
申请号：US11124753
申请日：2005-05-09
申请人： Daniel L. Gysling , Rebecca M. Bryant , Charles R. Winston
发明人： Daniel L. Gysling , Rebecca M. Bryant , Charles R. Winston
IPC分类号： G01F1/34
CPC分类号： G01F1/7086 , G01F1/708 , G01F1/7082 , G01F1/7084 , G01F1/712 , G01F1/74
摘要： Flow rate measurement system includes two measurement regions 14,16 located an average axial distance ΔX apart along the pipe 12, the first measurement region 14 having two unsteady pressure sensors 18,20, located a distance X1 apart, and the second measurement region 16, having two other unsteady pressure sensors 22,24, located a distance X2 apart, each capable of measuring the unsteady pressure in the pipe 12. Signals from each pair of pressure sensors 18,20 and 22,24 are differenced by summers 44,54, respectively, to form spatial wavelength filters 33,35, respectively. Each spatial filter 33,35filters out acoustic pressure disturbances Pacoustic and other long wavelength pressure disturbances in the pipe 12 and passes short-wavelength low-frequency vortical pressure disturbances Pvortical associated with the vortical flow field 15. The spatial filters 33,35 provide signals Pas1,Pas2 to band pass filters 46,56 that filter out high frequency signals. The Pvortical-dominated filtered signals Pasf1,Pasf2 from the two regions 14,16 are cross-correlated by Cross-Correlation Logic 50 to determine a time delay τ between the two sensing locations 14,16 which is divided into the distance ΔX to obtain a convection velocity Uc(t) that is related to an average flow rate of the fluid (i.e., one or more liquids and/or gases) flowing in the pipe 12. The invention may also be configured to detect the velocity of any desired inhomogeneous pressure field in the flow. The invention may also be combined with an instrument, an opto-electronic converter and a controller in an industrial process control system.
摘要翻译：流量测量系统包括沿着管12分开的平均轴向距离DeltaX的两个测量区域14,16，第一测量区域14具有位于距离X 1分开的两个不稳定压力传感器18,20 以及第二测量区域16，其具有两个位于距离X 2 2的两个非稳态压力传感器22,24，每个能够测量管12中的不稳定压力。来自每对压力传感器18,20和22,24的信号分别由加和器44,44分别形成空间波长滤波器33,35。每个空间滤波器33,35滤除管12中的声压干扰声和其他长波长压力干扰，并且通过短波长的低频涡旋压力扰动P＆lt; Vortical＆lt; 与涡旋流场15相关联。空间滤波器33,35向滤波器输出高频信号的带通滤波器46,56提供信号P 1，N 2，P 2，...。来自两个区域14,16的P＆lt; S＆gt; Vortical＆lt; / SUB＆gt;域滤波信号P 1，S 2，P 2，...，以确定两个感测位置14,16之间的时间延迟τ，其被分成距离DeltaX以获得与流体的平均流速相关的对流速度U c（t）即，一个或多个液体和/或气体）流入管道12中。本发明还可以被配置为检测流中任何所需非均匀压力场的速度。本发明还可以与工业过程控制系统中的仪器，光电转换器和控制器组合。

4. 发明授权

US06959604B2 Apparatus and method having an optical fiber disposed circumferentially around the pipe for measuring unsteady pressure within a pipe 有权
标题翻译：具有围绕管道周向设置用于测量管内的不稳定压力的光纤的装置和方法
公开(公告)号：US06959604B2
公开(公告)日：2005-11-01
申请号：US10224821
申请日：2002-08-21
申请人： Rebecca S. Bryant , Daniel L. Gysling , Charles R. Winston , Allen R. Davis , John M. Faustino
发明人： Rebecca S. Bryant , Daniel L. Gysling , Charles R. Winston , Allen R. Davis , John M. Faustino
IPC分类号： G01L1/00 , E21B47/06 , G01L1/24 , G01L11/02 , G01L9/00
CPC分类号： E21B47/06 , G01L1/246 , G01L11/025
摘要： A fiber optic pressure sensor for measuring unsteady pressures within a pipe include at least one optical fiber disposed circumferentially around a portion of a circumference of the pipe, which provides an optical signal indicative of the length of the optical fiber. An optical instrument measures the change in length of the optical fiber to determine the unsteady pressure within the pipe. The pressure sensor may include a plurality of optical fiber sections disposed circumferentially around a portion of the circumference of the pipe that are optically connected together by optical fiber sections disposed axially along the pipe. The optical fiber sections may include fiber Bragg gratings having substantially the same or different reflection wavelengths to permit for example the sensors to be axially distributed along the fiber using wavelength division multiplexing and/or time division multiplexing.
摘要翻译：用于测量管道内的不稳定压力的光纤压力传感器包括至少一个围绕管道的圆周部分周向设置的光纤，其提供指示光纤长度的光学信号。光学仪器测量光纤的长度变化，以确定管内的不稳定压力。压力传感器可以包括围绕管的圆周的一部分周向设置的多个光纤段，其通过沿着管轴向设置的光纤段光学连接在一起。光纤部分可以包括具有基本上相同或不同的反射波长的光纤布拉格光栅，以允许例如传感器使用波分复用和/或时分复用沿光纤轴向分布。

5. 发明授权

US06450037B1 Non-intrusive fiber optic pressure sensor for measuring unsteady pressures within a pipe 失效
标题翻译：用于测量管道内不稳定压力的非侵入式光纤压力传感器
公开(公告)号：US06450037B1
公开(公告)日：2002-09-17
申请号：US09344093
申请日：1999-06-25
申请人： Rebecca S. McGuinn , Daniel L. Gysling , Charles R. Winston , Allen R. Davis , John M. Faustino
发明人： Rebecca S. McGuinn , Daniel L. Gysling , Charles R. Winston , Allen R. Davis , John M. Faustino
IPC分类号： G01L900
CPC分类号： G01L1/246 , G01L11/025
摘要： Non-intrusive pressure sensors 14-18 for measuring unsteady pressures within a pipe 12 include an optical fiber 10 wrapped in coils 20-24 around the circumference of the pipe 12. The length or change in length of the coils 20-24 is indicative of the unsteady pressure in the pipe. Bragg gratings 310-324 impressed in the fiber 10 may be used having reflection wavelengths &lgr; that relate to the unsteady pressure in the pipe. One or more of sensors 14-18 may be axially distributed along the fiber 10 using wavelength division multiplexing and/or time division multiplexing.
摘要翻译：用于测量管12内的不稳定压力的非侵入式压力传感器14-18包括围绕管12的圆周缠绕在线圈20-24中的光纤10.线圈20-24的长度或长度的变化指示管道中的不稳定压力。可以使用印在纤维10中的布拉格光栅310-324，其具有与管中的不稳定压力有关的反射波长。传感器14-18中的一个或多个可以使用波分复用和/或时分复用沿光纤10轴向分布。

6. 发明授权

US06691584B2 Flow rate measurement using unsteady pressures 有权
标题翻译：使用不稳定压力进行流量测量
公开(公告)号：US06691584B2
公开(公告)日：2004-02-17
申请号：US10115727
申请日：2002-04-03
申请人： Daniel L. Gysling , Rebecca S. Bryant , Charles R. Winston
发明人： Daniel L. Gysling , Rebecca S. Bryant , Charles R. Winston
IPC分类号： G01F142
CPC分类号： G01F1/34 , G01F1/704 , G01F1/7086 , G01F1/712 , G01F1/74
摘要： According to one embodiment of the present invention, the apparatus comprises a first filter for measuring a pressure field at a first axial location along the pipe and providing a first pressure signal indicative of the vortical pressure field. The apparatus further comprises a second filter for measuring the vortical pressure field at a second axial location along the pipe and providing a second pressure signal indicative of the vortical pressure field. The apparatus further comprises a signal processor, responsive to the first and the second pressure signals, which provides a velocity signal indicative of a velocity of the vortical pressure field moving in the pipe.
摘要翻译：根据本发明的一个实施例，该装置包括第一过滤器，用于测量沿着管道的第一轴向位置处的压力场，并提供指示涡旋压力场的第一压力信号。该装置还包括第二过滤器，用于在沿着管道的第二轴向位置处测量涡旋压力场，并提供指示涡旋压力场的第二压力信号。该装置还包括响应于第一和第二压力信号的信号处理器，其提供指示在管道中移动的涡旋压力场的速度的速度信号。

7. 发明授权

US06536291B1 Optical flow rate measurement using unsteady pressures 有权
标题翻译：使用不稳定压力进行光学流量测量
公开(公告)号：US06536291B1
公开(公告)日：2003-03-25
申请号：US09345827
申请日：1999-07-02
申请人： Daniel L. Gysling , Rebecca S. McGuinn , Charles R. Winston
发明人： Daniel L. Gysling , Rebecca S. McGuinn , Charles R. Winston
IPC分类号： G01F134
CPC分类号： G01F1/7086 , G01F1/34 , G01F1/704
摘要： A fiber optic strain gauge based flow rate measurement system includes two measurement regions located an average axial distance &Dgr;X apart along the pipe, the first measurement region having two fiber optic strain gauges located a distance X1 apart, and the second measurement region having two other fiber optic strain gauges located a distance X2 apart, each capable of measuring the unsteady pressure in the pipe 12. Signals from each pair of fiber optic strain gauges are differenced by summers to form spatial wavelength filters. Each spatial filter filters out acoustic pressure disturbances Pacoustic and other long wavelength pressure disturbances in the pipe and passes short-wavelength low-frequency vortical pressure disturbances Pvortical associated with the vortical flow field. The spatial filters provide signals to band pass filters that filter out high frequency signals. The Pvortical-dominated filtered signals from the two sensing regions are cross-correlated to determine a time delay &tgr; between the two sensing locations which is divided into the distance &Dgr;X to obtain a convection velocity Uc(t) that is related to an average flow rate of the fluid (i.e., one or more liquids and/or gases) flowing in the pipe 12. The invention may also be configured detect the velocity of any desired inhomogeneous pressure field in the flow.
摘要翻译：基于光纤应变计的流量测量系统包括沿着管道分开的平均轴向距离DELTAX的两个测量区域，第一测量区域具有位于距离X1的两个光纤应变计，并且第二测量区域具有两个另外的光纤光学应变计位于距离X2的距离处，每个能量测量管12中的不稳定压力。来自每对光纤应变仪的信号由夏天差分以形成空间波长滤波器。每个空间滤波器滤除声压干扰管道中的声波和其他长波长压力干扰，并通过短波长低频涡旋压力扰动与涡旋流场相关的涡流。空间滤波器为滤除高频信号的带通滤波器提供信号。来自两个感测区域的以波特率为主的滤波信号是相互关联的，以确定两个感测位置之间的时间延迟τ，其被分成距离DELTAX以获得与平均流量相关的对流速度Uc（t）流体（即，一个或多个液体和/或气体）在管道12中流动。本发明还可以被配置为检测流中任何期望的不均匀压力场的速度。

8. 发明授权

US07121152B2 Portable flow measurement apparatus having an array of sensors 有权
标题翻译：具有传感器阵列的便携式流量测量装置
公开(公告)号：US07121152B2
公开(公告)日：2006-10-17
申请号：US10862234
申请日：2004-06-07
申请人： Charles R. Winston , Michael A. Sapack , Patrick Curry , Daniel L. Gysling
发明人： Charles R. Winston , Michael A. Sapack , Patrick Curry , Daniel L. Gysling
IPC分类号： G01F1/34
CPC分类号： G01F1/7082 , G01F1/712 , G01F1/74
摘要： A portable flow measuring apparatus measures the speed of sound and/or vortical disturbances propagating in a fluid flow to determine a parameter of the flow propagating through a pipe. The apparatus includes a sensing device that includes an array of pressure sensors, which may be removable, used to measure the acoustic and convective pressure variations in the flow to determine a desired parameter. A portable processing instrument processes the signals provided by the sensing array to provide an output signal indicative of a parameter of the fluid flow. The portable processing instrument includes a processor having appropriate processing algorithms to determine the desired or selected parameter(s) of the process flow 12. The portable processing instrument has a user interface to permit the user to select the parameters to be measured in the process flow, and/or more importantly, to enable the user to modify particular parameters or functions in the processor 30 and/or processing algorithms. The user interface 32 also enables a user to modify the code of the algorithm via a graphic user interface (GUI), keyboard and/or user input signal 34.
摘要翻译：便携式流量测量装置测量在流体流中传播的声音和/或涡流干扰的速度，以确定通过管道传播的流动的参数。该装置包括感测装置，其包括可以是可移除的压力传感器阵列，用于测量流中的声学和对流压力变化以确定期望的参数。便携式处理仪器处理由感测阵列提供的信号以提供指示流体流动的参数的输出信号。便携式处理仪器包括具有适当处理算法的处理器，以确定处理流程12的期望或选择的参数。便携式处理仪器具有允许用户在过程流程中选择要测量的参数的用户界面，和/或更重要的是使得用户能够修改处理器30中的特定参数或功能和/或处理算法。用户界面32还使用户能够经由图形用户界面（GUI），键盘和/或用户输入信号34修改算法的代码。

9. 发明授权

US06782150B2 Apparatus for sensing fluid in a pipe 有权
标题翻译：用于检测管道中的流体的装置
公开(公告)号：US06782150B2
公开(公告)日：2004-08-24
申请号：US09740760
申请日：2000-11-29
申请人： Allen R. Davis , Daniel L. Gysling , Charles R. Winston , John M. Faustino , Rebecca S. McGuinn
发明人： Allen R. Davis , Daniel L. Gysling , Charles R. Winston , John M. Faustino , Rebecca S. McGuinn
IPC分类号： G02B600
CPC分类号： G01F1/668 , E21B47/102 , G01F1/666
摘要： An apparatus for non-intrusively sensing fluid flow within a pipe is provided. The apparatus includes a first sensing array for sensing acoustic signals traveling at the speed of sound through fluid flow within the pipe, a second sensing array for sensing local pressure variations traveling with the fluid flow, and a housing attached to the pipe for enclosing the sensing arrays. The first sensing array includes a plurality of first optical pressure sensors and the second sensing array includes a plurality of second optical pressure sensors.
摘要翻译：提供了一种用于非侵入式地感测管内流体流动的装置。该装置包括用于感测通过管内的流体流以声速传播的声信号的第一感测阵列，用于感测与流体流动一起行进的局部压力变化的第二感测阵列，以及附接到管道的壳体，用于封闭感测阵列第一感测阵列包括多个第一光学压力传感器，并且第二感测阵列包括多个第二光学压力传感器。

10. 发明授权

US07302861B2 Portable flow measurement apparatus having an array of sensors 有权
标题翻译：具有传感器阵列的便携式流量测量装置
公开(公告)号：US07302861B2
公开(公告)日：2007-12-04
申请号：US11582203
申请日：2006-10-16
申请人： Charles R. Winston , Michael A. Sapack , Patrick Curry , Daniel L. Gysling
发明人： Charles R. Winston , Michael A. Sapack , Patrick Curry , Daniel L. Gysling
IPC分类号： G01F1/34
CPC分类号： G01F1/7082 , G01F1/712 , G01F1/74
摘要： A portable flow measuring apparatus includes an array of pressure sensors used to measure the acoustic and convective pressure variations in the flow to determine a desired parameter. A portable processing instrument processes the signals provided by the sensing array to provide an output signal indicative of a parameter of the fluid flow. The portable processing instrument includes a processor having appropriate processing algorithms to determine the desired or selected parameter(s) of the process flow 12. The portable processing instrument has a user interface to permit the user to select the parameters to be measured in the process flow, and/or more importantly, to enable the user to modify particular parameters or functions in the processor 30 and/or processing algorithms. The user interface 32 also enables a user to modify the code of the algorithm via a graphic user interface (GUI), keyboard and/or user input signal 34.
摘要翻译：便携式流量测量装置包括用于测量流中的声学和对流压力变化的压力传感器阵列，以确定期望的参数。便携式处理仪器处理由感测阵列提供的信号以提供指示流体流动的参数的输出信号。便携式处理仪器包括具有适当处理算法的处理器，以确定处理流程12的期望或选择的参数。便携式处理设备具有用户接口，以允许用户在过程流程中选择待测量的参数和/或更重要的是使得用户能够修改处理器30中的特定参数或功能和/或处理算法。用户界面32还使用户能够经由图形用户界面（GUI），键盘和/或用户输入信号34修改算法的代码。

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