Method and apparatus for simulating electrical characteristics of a coated segment of a pipeline
First Claim
1. An electronic pipeline simulator for simulating electrical pipe-to-soil impedance of a coated segment of a pipeline, said electronic pipeline simulator operable without electrical or physical connectivity to an actual coated pipeline segment, and operable during calibration or testing of a magnetically-detected electrochemical impedance spectroscopy (MEIS) system, said electronic pipeline simulator comprising:
- a voltage excitation point for providing current to a first test point, said voltage excitation test point simulating the location where a pipe segment is electrically accessed, and said first test point representing an up-pipe location along the segment of pipeline where a first magnetometer measurement of said MEIS system is taken between the up-pipe location and ground;
a leakage current circuit electrically coupled to the voltage excitation point and ground, the leakage current circuit comprising;
a first RC circuit electrically coupled to the voltage excitation point and including a first capacitor in parallel with one of a plurality of resistive elements, each of the resistive elements being selectable by an operator and having different resistive values representing different bond conditions of the coated segment of the pipeline; and
a soil condition resistive element coupled to the first RC circuit and ground, the soil condition resistive element comprising a plurality of resistive values that are selectable by the operator, each resistive value representing a different soil environment interfacing with the coated segment of a pipeline, wherein first RC circuit and the soil condition resistive element simulate a leakage current from the coated segment of a pipeline to ground; and
a second test point electrically coupled to the leakage current circuit and representing a down-pipe location along the segment of pipeline where a second magnetometer measurement of said MEIS system is taken between the pipeline segment and ground, and wherein a current value derived from the second magnetometer measurement at the second test point equals a current value derived from the first magnetometer measurement at the first test point, less the current flowing through the leakage current circuit, and thereby facilitating calculation of current flowing through the leakage current circuit.
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Accused Products
Abstract
Method and apparatus for simulating electrical pipe-to-soil impedance of a coated segment of a pipeline includes simulating a current injection point to a buried pipe section, simulating a first output signal from a magnetometer positioned at a first location over the buried pipe section, simulating a second output signal from a magnetometer positioned at a second location over the buried pipe section, simulating bonding of pipe coating of the pipe section, and simulating soil resistance of a soil environment surrounding the buried pipe section. The invention includes both field-test simulation with calibration pipe samples, and bench-test simulation using electronic simulation of the pipe coating. The simulations may be used for test and general calibration of MEIS pipeline coating inspection systems.
23 Citations
8 Claims
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1. An electronic pipeline simulator for simulating electrical pipe-to-soil impedance of a coated segment of a pipeline, said electronic pipeline simulator operable without electrical or physical connectivity to an actual coated pipeline segment, and operable during calibration or testing of a magnetically-detected electrochemical impedance spectroscopy (MEIS) system, said electronic pipeline simulator comprising:
a voltage excitation point for providing current to a first test point, said voltage excitation test point simulating the location where a pipe segment is electrically accessed, and said first test point representing an up-pipe location along the segment of pipeline where a first magnetometer measurement of said MEIS system is taken between the up-pipe location and ground; a leakage current circuit electrically coupled to the voltage excitation point and ground, the leakage current circuit comprising; a first RC circuit electrically coupled to the voltage excitation point and including a first capacitor in parallel with one of a plurality of resistive elements, each of the resistive elements being selectable by an operator and having different resistive values representing different bond conditions of the coated segment of the pipeline; and a soil condition resistive element coupled to the first RC circuit and ground, the soil condition resistive element comprising a plurality of resistive values that are selectable by the operator, each resistive value representing a different soil environment interfacing with the coated segment of a pipeline, wherein first RC circuit and the soil condition resistive element simulate a leakage current from the coated segment of a pipeline to ground; and a second test point electrically coupled to the leakage current circuit and representing a down-pipe location along the segment of pipeline where a second magnetometer measurement of said MEIS system is taken between the pipeline segment and ground, and wherein a current value derived from the second magnetometer measurement at the second test point equals a current value derived from the first magnetometer measurement at the first test point, less the current flowing through the leakage current circuit, and thereby facilitating calculation of current flowing through the leakage current circuit. - View Dependent Claims (2, 3, 4)
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5. A test circuit apparatus for simulating electrical pipe-to-soil impedance of a coated segment of a pipeline without actual or electrical connectivity to a coated pipeline segment, the apparatus comprising:
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means for providing a voltage excitation point in a test circuit that simulates a voltage excitation point on a buried pipe section; means for providing a first measuring location in the test circuit for measuring a first output signal with a magnetometer, said first measuring location having circuitry coupled to the voltage excitation point and simulating an up-pipe location over the buried pipe section; means for providing a second measuring location in the test circuit for measuring a second output signal with the magnetometer, said second measuring location having circuitry coupled to the voltage excitation point and simulating a down-pipe location over the buried pipe section; means for providing an RC circuit in the test circuit, the RC circuit having selectable resistive elements for simulating various bonding conditions of pipe coating of the pipe section, said RC circuit being electrically coupled to the voltage excitation point; and means for providing a soil resistance circuit in the test circuit, the soil resistance circuit being serially coupled between the RC circuit and ground, said soil resistance circuit having selectable resistive elements for simulating various soil resistance values of a soil environment surrounding the buried pipe section. - View Dependent Claims (6, 7)
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8. A method for simulating electrical pipe-to-soil impedance of a coated segment of a pipeline without actual or electrical connectivity to a coated pipeline segment, the method comprising the steps of:
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providing a voltage excitation point in a test circuit that simulates a voltage excitation point on a buried pipe section; providing a first measuring location in the test circuit for measuring a first output signal with a magnetometer, said first measuring location having circuitry coupled to the voltage excitation point and simulating an up-pipe location over the buried pipe section; providing a second measuring location in the test circuit for measuring a second output signal with the magnetometer, said second measuring location having circuitry coupled to the voltage excitation point and simulating a down-pipe location over the buried pipe section; providing an RC circuit in the test circuit, the RC circuit having selectable resistive elements for simulating various bonding conditions of pipe coating of the pipe section, said RC circuit being electrically coupled to the voltage excitation point; and providing a soil resistance circuit in the test circuit, the soil resistance circuit being serially coupled between the RC circuit and ground, said soil resistance circuit having selectable resistive elements for simulating various soil resistance values of a soil environment surrounding the buried pipe section.
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Specification