Method and system for monitoring power flow through an electric power transmission line
First Claim
1. A method for monitoring the power flowing through an electric power transmission line set, comprising:
- selecting positions for a preferred placement for a plurality of magnetic field monitors by (a) determining a conductor configuration a power flow of the transmission line set at a location along the transmission line set, and (b) determining positions in a substantially planar area that is transverse to said transmission line set at said location where a predetermined change in said power flow results in a maximum change in the magnetic field at the positions;
placing said magnetic field monitors at said selected positions for collecting magnetic field data;
performing a computational analysis on said magnetic field data to determine a power flow through said transmission line set; and
communicating said power flow to an end user;
wherein said sub-step of determining the conductor configuration and power flow of the transmission line set includes;
obtaining horizontal and vertical distances between each conductor and a plurality of measuring points across the substantially planar area to determine the conductor configuration of the transmission line set;
obtaining measured magnetic field values at said measuring points;
generating, through computation performed on a digital computer, predicted magnetic field values and at each measuring point for a range of line set power flows; and
selecting the line set power flow where the predicted values have a best fit with the measured values.
6 Assignments
0 Petitions
Accused Products
Abstract
A conductor configuration and a power flow of an electric power transmission line set is determined at a location along the line set, and positions in a substantially planar area that is transverse to the line set are determined where a predetermined change in the power flow results in a maximum change in the magnetic field at the positions. A system for monitoring power flow includes a plurality of magnetic field monitors placed at the selected positions, and a central processing facility for communicating the power flow to an end user. A method for monitoring power flow includes selecting positions for placement of a plurality of magnetic field monitors, placing the monitors, determining a power flow, and communicating the power flow to an end user.
31 Citations
14 Claims
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1. A method for monitoring the power flowing through an electric power transmission line set, comprising:
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selecting positions for a preferred placement for a plurality of magnetic field monitors by (a) determining a conductor configuration a power flow of the transmission line set at a location along the transmission line set, and (b) determining positions in a substantially planar area that is transverse to said transmission line set at said location where a predetermined change in said power flow results in a maximum change in the magnetic field at the positions; placing said magnetic field monitors at said selected positions for collecting magnetic field data; performing a computational analysis on said magnetic field data to determine a power flow through said transmission line set; and communicating said power flow to an end user; wherein said sub-step of determining the conductor configuration and power flow of the transmission line set includes; obtaining horizontal and vertical distances between each conductor and a plurality of measuring points across the substantially planar area to determine the conductor configuration of the transmission line set; obtaining measured magnetic field values at said measuring points; generating, through computation performed on a digital computer, predicted magnetic field values and at each measuring point for a range of line set power flows; and selecting the line set power flow where the predicted values have a best fit with the measured values. - View Dependent Claims (2, 3)
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4. A method for monitoring the power flowing through an electric power transmission line set, comprising:
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selecting positions for a preferred placement for a plurality of magnetic field monitors by (a) determining a conductor configuration and a power flow of the transmission line set at a location along the transmission line set, and (b) determining positions in a substantially planar area that is transverse to said transmission line set at said location where a predetermined change in said power flow results in a maximum change in the magnetic field at the positions; placing said magnetic field monitors at said selected positions for collecting magnetic field data; performing a computational analysis on said magnetic field data to determine a power flow through said transmission line set; and communicating said power flow to an end user, wherein said sub-step of determining positions where a change in power flow through the line results in a maximum change in magnetic field at the positions includes; obtaining predicted horizontal magnetic field values and predicted vertical magnetic field values at each measuring point for the determined power flow of the transmission line; obtaining predicted horizontal magnetic field values and predicted vertical magnetic field values at each measuring point for a power flow of the transmission line where the determined power flow has changed by a predetermined power amount; generating a horizontal magnetic field difference curve by taking the difference between the predicted horizontal magnetic field values for the changed power flow and the predicted horizontal magnetic field values for the determined power flow at each measuring point; generating a vertical magnetic field difference curve by taking the difference between the predicted vertical magnetic field values for the changed power flow and the predicted vertical magnetic field values for the determined power flow at each measuring point; and selecting the maxima of the horizontal magnetic field difference curve and the vertical magnetic field difference curve as the positions where a change in power flow through the line results in a maximum change in the magnetic field at the positions.
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5. A system for monitoring the power flowing through an electric power transmission line set, said system comprising:
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a plurality of magnetic field monitors placed at selected positions in a substantially planar area that is transverse to the transmission line set, said positions selected by; determining a conductor configuration and a power flow of the transmission line set in the substantially planar area by;
(a) obtaining horizontal and vertical distances between each conductor and a plurality of measuring points across the substantially planar area to determine the conductor configuration of the transmission line set;
(b) obtaining measured magnetic field values at said measuring points;
(c) generating, through computation performed on a digital computer, predicted magnetic field values at each measuring point for a range of line set power flows; and
(d) selecting the line set power flow where the predicted values have a best fit with the measured values; anddetermining positions in the substantially planar area where a predetermined change in the power flow of the line set results in a maximum change in the magnetic field at the positions; and a central processing facility in communication with said plurality of magnetic field monitors for communicating the power flow determination to an end user. - View Dependent Claims (6, 7)
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8. A method for selecting positions for a preferred placement for a plurality of magnetic field monitors for monitoring the power flowing through an electric power transmission line set, said method comprising:
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determining, through a computational analysis performed on a digital computer, a conductor configuration and a power flow of the transmission line set at a location along the transmission line set by; obtaining horizontal and vertical distances between each conductor and a plurality of measuring points across the substantially planar area; obtaining magnetic field values at said measuring points; generating, through computation performed on a digital computer, predicted magnetic field values at each measuring point for a range of line set power flows; and selecting the line set power flow where the predicted values have a best fit with the obtained values; and determining, through a computational analysis performed on a digital computer, positions in a substantially planar area that is transverse to the transmission line set at the location where a predetermined change in the power flow of the line set results in a maximum change in the magnetic field at the positions, thereby indicating the preferred placement of the monitors. - View Dependent Claims (9, 10, 11)
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12. A computer readable medium having computer executable instructions for performing a method for selecting positions for a preferred placement for a plurality of magnetic field monitors for monitoring power flow through an electric power transmission line set, said method comprising:
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determining a conductor configuration and a power flow of the transmission line set at a location along the transmission line set by obtaining horizontal and vertical distances between each conductor and a plurality of measuring points across the substantially planar area to determine the detailed conductor configuration of the transmission line set at the location along the line; obtaining magnetic field values at said measuring points;
generating predicted magnetic field values at each measuring point for a range of line set power flows; andselecting the line set power flow where the predicted values have a best fit with the measured values; and determining positions in a substantially planar area that is transverse to the transmission line set at the location where a predetermined change in the power flow through the line set results in a maximum change in the magnetic field at the positions, thereby indicating the preferred placement of the monitors. - View Dependent Claims (13, 14)
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Specification