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Long-distance-delivery buried oil gas pipe network route selecting and optimizing method for resisting geomagnetic storm disasters

A technology of line selection and optimization method, which is applied in pipeline laying and maintenance, pipes/pipe joints/fittings, mechanical equipment, etc., and can solve problems such as loss of resistance, burning of equipotential connectors, and no consideration of defense against geomagnetic storm disasters, etc.

Inactive Publication Date: 2016-01-06
CHINA UNIV OF PETROLEUM (BEIJING)
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  • Abstract
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Problems solved by technology

[0004] (1) When designing routes for long-distance oil and gas pipeline projects, defense against geomagnetic storms is not considered. When local magnetic storms occur, sudden changes in pipeline network parameters and pipeline network environmental parameters will lead to sudden changes in pipeline PSP, showing a "swallow tail" "peak" shape, the traditional potentiostat can not effectively protect the PSP "swallow tail peak" phenomenon, and may even have a negative effect
[0005] (2) "Negative" cumulative effect of too long electrical continuous pipeline
[0007] (3) When the high-voltage direct current transmission single pole is running, a large current flows in the nearby pipeline, causing the potentiostat to fail or even burn out, the insulation joint overvoltage breakdown, the equipotential connector burnout and other pipeline accidents.
The GIC caused by the geomagnetic storm is similar to the DC transmission current, so too large GIC may also cause damage to equipment such as potentiostats
[0008] (4) The prior art potentiostat control has serious limitations
However, when the pipeline is too long, the global interference of the geomagnetic storm will cause the pipeline-ground potential to increase cumulatively with the increase of the pipeline length, and the stray current interference signals of the entire pipeline will be superimposed and "coupled", so that the original potentiostat loses Resistance to external stray current interference
Moreover, the existing potentiostat has a unipolar output, which cannot change the output polarity to adaptively eliminate external DC and AC stray current interference and geomagnetic stray current interference caused by space weather.

Method used

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  • Long-distance-delivery buried oil gas pipe network route selecting and optimizing method for resisting geomagnetic storm disasters
  • Long-distance-delivery buried oil gas pipe network route selecting and optimizing method for resisting geomagnetic storm disasters
  • Long-distance-delivery buried oil gas pipe network route selecting and optimizing method for resisting geomagnetic storm disasters

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[0080] The present invention will be described in detail below in conjunction with the accompanying drawings and specific embodiments. The following description is only for demonstration and explanation, and does not limit the present invention in any form.

[0081] In order to reduce the sudden change point of pipeline geomagnetic storm disaster and reduce the "swallow tail peak" of pipeline PSP, thereby reducing the number of pipeline cathodic protection devices, and in order to reduce the degree of sudden change of PSP at pipeline geomagnetic storm disaster sudden change point, thereby greatly saving pipeline anti-corrosion costs, Improve the ability of buried oil and gas pipelines to defend against geomagnetic storm disasters, prolong the life of pipelines and related equipment, and design a long-distance buried oil and gas pipeline network line selection optimization method for defense against geomagnetic storm disasters, such as figure 1 As shown, the method includes thre...

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Abstract

The invention relates to a long-distance-delivery buried oil gas pipe network route selecting and optimizing method for resisting geomagnetic storm disasters. The long-distance-delivery buried oil gas pipe network route selecting and optimizing method for resisting the geomagnetic storm disasters comprises the steps that firstly, route selection is conducted by means of existing data and according to the current standard; secondly, geomagnetic storm disaster mutational sites of all alternative routes are found out by means of a pipe network geomagnetic storm disaster mutational site scanning searching method, and route optimization is conducted; and thirdly, a route selecting and optimizing result is output. According to the long-distance-delivery buried oil gas pipe network route selecting and optimizing method for resisting the geomagnetic storm disasters, by selecting and optimizing a a long-distance-delivery buried oil gas pipe network route, the number of geomagnetic storm disaster mutational sites can be reduced, the Dovetail peak of the pipe-to-soil potential is reduced, and accordingly the number of pipeline cathodic protection devices is reduced, pipeline corrosion protection cost is greatly reduced, the capacity to resist the geomagnetic storm disasters of a buried oil gas pipeline is improved, and the service life of the pipeline and relevant equipment is prolonged.

Description

technical field [0001] The invention relates to the technical field of line design of buried oil and gas pipeline networks, in particular to a method for selecting and optimizing lines of long-distance buried oil and gas pipeline networks for preventing geomagnetic storm disasters. Background technique [0002] Long-distance oil and gas pipelines have gas stations and oil stations at intervals, and insulating flanges are installed at the inlet and outlet of the gas stations and oil stations to electrically isolate the pipelines. For the convenience of power supply and maintenance, pipeline cathodic protection devices It is installed at the gas transmission station and the oil transmission station, and the two sections of pipelines outside the insulating flanges of the gas transmission station and the oil transmission station are connected together with metal wires. After the gas transmission station and the oil transmission station of the entire pipeline are done like this E...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F16L1/028
CPCF16L1/028
Inventor 梁志珊夏鹏程张举丘
Owner CHINA UNIV OF PETROLEUM (BEIJING)
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