Method and apparatus for pattern match filtering for real time acoustic pipeline leak detection and location
DC
First Claim
1. A method for detecting leaks in pipelines comprising the steps of:
- interconnecting sensors at a plurality of locations along a pipeline for sensing fluid pressure in the pipeline at the plurality of locations;
interconnecting local site processors with the sensors at the plurality of locations along the pipeline;
obtaining past fluid pressure data associated with past leaks in pipelines;
storing the past fluid pressure data associated with past leaks in the local site processors;
sensing fluid pressure in the pipeline at the plurality of locations with the sensors;
comparing seed fluid pressure data with the past fluid pressure data in the local site processors;
issuing an alarm if the sensed fluid pressure data matches the past fluid pressure data;
interconnecting the local site processors with a node processor and storing past fluid pressure data associated with past leaks in the node processor, and comparing the sensed fluid pressure data and the past fluid pressure data in the node processor in response to an alarm issued by the local site processors;
transmitting the alarm from the node processor to a computer terminal when the comparisons from a plurality of site processors indicate that the sensed fluid pressure data matches the past fluid pressure data;
locating a leak in the pipeline by time stamping data for recording the time of an acoustic pressure profile at a plurality of sites, and calculating the leak location based on the time and velocity of sound in a fluid in the pipeline; and
deriving a sharp peaked output for use as a reference point for time stamping from the output of the comparison of the sensed pressure fluid data and the past fluid data.
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Abstract
A method and apparatus is provided for detecting and locating leaks in a pipeline. Pattern match filtering is used to reduce false alarm rate, increase sensitivity and improve leak location accuracy, while quickly detecting leaks by the acoustic signal generated from a leak event in pipelines containing gas or liquid under pressure. The pattern match filter technique detects a pressure wave generated by a leak, but discriminates against background noise and pressure disturbance generated by other non-leak sources that might otherwise be detected as a leak. The pattern match filter derives a sharp peaked output from the signal of the expansion wave which allows for a distinctive point of reference for a time stamp. This provides for improved accuracy in leak location calculations. The pattern match filter is incorporated into site processors located at multiple points along a pipeline, and at a central node processor which receives data from all site processors. The pattern match filter includes using previously recorded leak profiles. At site processes located at multiple points along a pipeline, a series of previously recorded signature leak profiles are continuously compared in real time against pipeline pressure signals. Data from each site processor are used collectively at a node processor and compared against multiple leak profiles to provide further false alarm rejection. The leak event data generated at each site processor is used by the node processor to declare a leak. By the application of this pattern match filter technique, the signal to noise ratio (S/N ratio) required to identify a leak event is reduced and the sensitivity of leak detection is increased.
119 Citations
3 Claims
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1. A method for detecting leaks in pipelines comprising the steps of:
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interconnecting sensors at a plurality of locations along a pipeline for sensing fluid pressure in the pipeline at the plurality of locations;
interconnecting local site processors with the sensors at the plurality of locations along the pipeline;
obtaining past fluid pressure data associated with past leaks in pipelines;
storing the past fluid pressure data associated with past leaks in the local site processors;
sensing fluid pressure in the pipeline at the plurality of locations with the sensors;
comparing seed fluid pressure data with the past fluid pressure data in the local site processors;
issuing an alarm if the sensed fluid pressure data matches the past fluid pressure data;
interconnecting the local site processors with a node processor and storing past fluid pressure data associated with past leaks in the node processor, and comparing the sensed fluid pressure data and the past fluid pressure data in the node processor in response to an alarm issued by the local site processors;
transmitting the alarm from the node processor to a computer terminal when the comparisons from a plurality of site processors indicate that the sensed fluid pressure data matches the past fluid pressure data;
locating a leak in the pipeline by time stamping data for recording the time of an acoustic pressure profile at a plurality of sites, and calculating the leak location based on the time and velocity of sound in a fluid in the pipeline; and
deriving a sharp peaked output for use as a reference point for time stamping from the output of the comparison of the sensed pressure fluid data and the past fluid data.
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2. A method for detecting leaks in pipelines comprising the steps of:
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interconnecting sensors at a plurality of locations along a pipeline for sensing fluid pressure in the pipeline at the plurality of locations;
interconnecting local site processors with the sensors at the plurality of locations along the pipeline;
obtaining past fluid pressure data associated with past leaks in pipelines;
storing the past fluid pressure data associated with past leaks occurring at different operating conditions in the local site processors;
sensing fluid pressure in the pipeline at the plurality of locations with the sensors;
comparing the sensed fluid pressure data to the past fluid pressure data in the local site processors using past fluid pressure data occurring under similar operating conditions to those at the time that the sensed fluid pressure data is obtained; and
issuing an alarm if the sensed fluid pressure data matches the past fluid pressure data. - View Dependent Claims (3)
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Specification
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- Resources
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Current AssigneeAcoustic Systems Incorporated
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Original AssigneeAcoustic Systems Incorporated
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InventorsRecane, Marion, Yang, Bao-Wen
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Primary Examiner(s)Williams, Hezron
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Assistant Examiner(s)Garber, Charles D
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Application NumberUS09/320,875Time in Patent Office1,090 DaysField of Search73/405.A, 73/405.R, 735/92, 364/509US Class Current73/40.50ACPC Class CodesG01M 3/243 for pipes
