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Method for monitoring oil-gas pipeline in mining subsidence area

A technology for oil and gas pipelines and subsidence areas, which can be used in pipeline systems, measuring devices, optical devices, etc., and can solve problems such as optical fiber grating sensing not seen

Active Publication Date: 2013-02-13
PIPECHINA SOUTH CHINA CO
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0018] Due to these advantages, in the field of geotechnical engineering, fiber grating sensors are easy to embed in rock and soil for high-resolution and wide-range measurement of internal strain and temperature. The technical advantages are very obvious, especially in the ability to obtain long-term, Reliable deformation data of rock and soil. Currently, there is no report on the joint monitoring of fiber grating sensing technology used in goaf pipe body strain, pipe-soil relative displacement, and gob laying belt soil horizontal deformation.

Method used

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  • Method for monitoring oil-gas pipeline in mining subsidence area
  • Method for monitoring oil-gas pipeline in mining subsidence area
  • Method for monitoring oil-gas pipeline in mining subsidence area

Examples

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Embodiment

[0112] Embodiment. This example is an experimental method, as Figure 1-Figure 3 shown. The test was carried out in a goaf subsidence area with mining depth ratio of 10, mining length of 15m, pipeline buried depth of 3m and pipeline length of 130m. The diameter of the pipeline is 168mm, the wall thickness is 6mm, and the steel grade is L245.

[0113]The oil and gas pipeline monitoring system in the goaf subsidence area is divided into an on-site collection and transmission system and a remote receiving and analysis system, including pipe strain monitoring devices, pipe-soil relative displacement monitoring devices, horizontal deformation monitoring devices in goaf subsidence areas, on-site monitoring stations, and office facilities. Receiving terminal (host computer).

[0114] The overall composition of the oil and gas pipeline monitoring system in the goaf subsidence area is as follows: figure 2 shown. Install the fiber grating strain sensor a3 and the pipe-soil relative ...

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Abstract

The invention discloses a method for monitoring an oil-gas pipeline in a mining subsidence area based on a fiber grating sensing technology. The method comprises the following steps of: monitoring pipe body axial strain with a fiber grating strain sensor, monitoring pipe-soil relative replacement with a fiber grating displacement sensor, and monitoring soil body horizontal deformation with a fiber grating sensing network; demodulating and preprocessing signals acquired by the sensors, and transmitting the signals to a remote monitoring center; further analyzing and processing data in the monitoring center, and computing mining subsidence soil body horizontal deformation change, pipe body axial strain change and pipe-soil relative displacement change; judging the state stabilities of the pipe body strain change and the soil body strain change, and judging whether the data surpass threshold values; when three parameter values are smaller than respective threshold values, judging that the pipeline is in a safe state; and when the pipe body axial strain reaches 70 percent of a pipe body limit strain value, or a pipe-soil relative displacement value reaches a threshold value and keeps constant, or a soil body horizontal deformation curve changes suddenly, performing pipeline safety joint early-warning.

Description

technical field [0001] The invention relates to a method for monitoring oil and gas pipelines in goaf subsidence areas based on optical fiber grating sensing technology, and relates to the technical fields of measuring stress and temperature, measuring similar linear dimensions, and pipeline systems. Background technique [0002] The space formed after the underground mine is mined is called the goaf. After the underground mineral layer is mined, the upper rock layer loses its support, the balance condition is destroyed, and then it bends and collapses, so that the surface sinks and deforms, causing the surface to subside and form a depression. With the continuous expansion of the goaf, the depression continues to develop and form the goaf subsidence area, which will cause damage to the above-ground or underground buildings (structures). Goaf subsidence disaster is one of the main forms of geological disasters that cause loss of human life and property. Long-distance oil o...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01B11/16G01B11/02F17D5/00
Inventor 吴张中马云宾郝建斌韩冰荆宏远刘建平谭东杰蔡永军宋宁
Owner PIPECHINA SOUTH CHINA CO
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