CN201096589Y

CN201096589Y - Distributed type optical fibre pipeline safe early-warning system based on phase interference

Info

Publication number: CN201096589Y
Application number: CNU2007201694405U
Authority: CN
Inventors: 蔡永军; 陈朋超; 刘广文; 艾慕阳; 郑娟; 谭东杰; 孙异
Original assignee: China Petroleum and Natural Gas Co Ltd
Current assignee: China Petroleum and Natural Gas Co Ltd
Priority date: 2007-06-27
Filing date: 2007-06-27
Publication date: 2008-08-06
Anticipated expiration: 2017-06-27

Abstract

The utility model is a distributed optical fiber pipeline security early warning system which bases on the phase inference. The laser of a laser source (18) is connected with an optical fiber coupler (15) through an optical isolator (17); the laser is divided into two paths which are respectively connected with guide optical fibers (3a), (4a) through polarization state controllers (13a),(13b) and ports (3),(4); the guide optical fiber (3a) is connected with a fiber core (3b); the guide optical fiber (4a) is connected with fiber cores (7),(8) through a head end box (11); the fiber cores (3b),(7),(8) are connected with a rear end box (10), and then are respectively connected with guide optical fibers (1a),(2a) through fiber cores (1b),(2b); the guide optical fibers (1a),(2a) are connected with photoelectric detectors (12a),(12b) through ports (1),(2); the outputs are respectively connected with signal conditioning units (14a),(14b) and are inputted into an A/D converter (16a) differentially; the converter is connected with a signal processing computer (19); the rear end box (10) is connected with the head end box (11) through fiber cores (7),(8) and is respectively connected with photoelectric detectors (12c),(12d) through guide optical fibers (5a),(6a) and ports (5)(6); the photoelectric detectors are respectively connected with signal processing units (14c),(14d) and are inputted into an A/D converter differentially; the outputs are connected with the signal processing computer (19).

Description

Distributed type optical fibre pipeline safe early-warning system based on phase interference

Technical field

The utility model is the distributed type optical fibre pipeline safe early-warning system based on phase interference of the safeguard protection early warning in a kind of buried pipeline, structures or important ground structures, critical facility and zone.Relate to the measurement of mechanical vibration, the measurement of phase place, the measurement and the piping system technical field of impact.

Background technology

Oil and gas pipes occupy critical positions as the lifeblood of industrial economy in national economy.Because the third party that defective, burn into unaccelerated aging and the external force of pipeline itself cause destroys the loss of the oil gas product that causes, environmental pollution and personnel's injury.Along with the continuous development of pipeline industry, for the safe operation of service conduit, pipeline operational monitoring technology is also in continuous development, the attention that always is subjected to the various countries scientific worker as the Leak Detection and the safe early warning technology of pipe monitoring core.

Have multiple pipeline leakage testing technology and method at present both at home and abroad, still this method can only be reported to the police after pipeline takes place to leak, and can not suffer to carry out early warning before the substantive destruction at pipeline.In recent years occur a kind ofly detecting the third party that pipeline suffers based on detection and destroying to sound that pipeline damage produced and vibration signal, and the technology that positions, Chinese utility model patent number 200320100537.2 grades have been done detailed description to this type of technology.Though this technology has certain pre-alerting ability, the problems such as the communication of system and power supply that are limited by have significant limitation.

Along with development of fiber technology, Fibre Optical Sensor also begins application and pipeline leakage testing and safe early warning field, principle branch with Fibre Optical Sensor mainly contains interference type distributed optical fiber sensing technology and back scattering type distributing optical fiber sensing technology, interfere type mainly is represented as Chinese invention patent application 200410020046.6,200410016038 and ZL 99814375.8, and scatter-type mainly is represented as Chinese invention patent application 02145502.3.The technical matters that can solve the pipe safety field is all claimed by these systems, but in input sensitivity and the restriction that detects length, also has the system stability aspect all to have problems, and can't use at industry oil feed channel scene.

The utility model content

The purpose of this utility model is the distributed type optical fibre pipeline safe early-warning system based on phase interference of the safeguard protection early warning of a kind of buried pipeline of design, the important structures of structures or ground, critical facility and regional detection sensitivity height, bearing accuracy height, separate unit system protection distance.

At existing issue, the utility model proposes a kind of distributed type optical fibre pipeline safe early-warning system based on differential input.The utility model is by detecting the phase differential that produces when the coherent light that transmits is subjected to the disturbance of outside threats incident in the optical cable of pipeline laying, two-beam can be realized threatening effective detection of incident with judgement by the identification to interference signal owing to exist phase differential to interfere.

The utility model is the same with prior art, also comprises the Mach-Zehnder fibre optic interferometer that constitutes along the optical fiber of pipeline laying.But formation of the present utility model is as shown in Figure 1, and 1～6 is the access interface of optical fiber demodulating system among Fig. 1, and 1a～6a is a guiding fiber, 1b, and 2b, 3b, 7 and 8 is the fibre core in the trunk cable 9.10 is end cassettes, 11 is the head end box, 12a～12d is a photodetector, and 13a and 13b are the polarization state of light controller, and 14a～14d is the signal condition unit, 15 is fiber coupler, 16a and 16b are analog to digital converter, 17 optoisolators, and 18 is LASER Light Source, 19 is the signal Processing computing machine, and 20 is the light signal demodulating system.

The laser that LASER Light Source 18 is sent is connected with fiber coupler 15 behind optoisolator 17, be divided into two bundles by fiber coupler 15, be converted to same polarization state through two polarization state controller 13a and 13b, output connects port 3,4 through guiding

fiber

3a, 4a, guiding fiber 3a meets the fibre core 3b in the optical cable 9,4a connects the fibre core 7 in the optical cable 9 behind head end box 11, fibre core 8, fibre core 3b and fibre core 7, fibre core 8 connects end cassettes 10, the fibre core 1b that picks out from

end cassettes

10,2b meets guiding fiber 1a more respectively, 2a also meets photodetector 12a through port one and 2,12b,

photodetector

12a, 12b output respectively meets signal condition unit 14a, common differential input analog-to-digital converter 16a behind the 14b, the output of analog to digital converter 16a connects the input of signal Processing computing machine 18; Receive head end box 11 after guiding fiber 5a, 6a and port 5,6

meet photodetector

12c, 12d respectively from the fibre core 7,8 that end cassettes 10 picks out,

photodetector

12c, 12d output respectively meets common differential input analog-to-digital converter 16b behind signal condition unit 14c, the 14d, and the output of analog to digital converter 16b connects the input of signal Processing computing machine 19.

Wherein signal condition unit 14a～14d (see figure 2) is two second order active band pass filters, it is made up of three operational amplifier A 1, A2, A3, low (height) that A1 forms is connected with height (low) bandpass filter that phase inverter output that source filter forms through A2 forms through A3 again and feeds back to low (height) that A1 forms and be connected with the source filter input, its centre frequency is adjustable, and gain does not change with centre frequency.

Optoisolator 15 can effectively reduce the infringement of reflected light to system source, can effectively improve the job stability of system; It has city's pin product to select.

Head end box 11 and end cassettes 10 are the optical cable connecting box of particular design, are fiber coupler (city's pin product) in the box, do not contain any active device, and waterproof, protection against the tide, corrosion-resistant can be fit to use for a long time with burying.

Photodetector 12a～12d, polarization state controller 13a and 13b, fiber coupler 15, analog to digital converter 16a and 16b, optoisolator 17, LASER Light Source 18, signal Processing computing machine 19 all can be selected city's pin product.

The specific implementation process of system is, the light that LASER Light Source 18 is sent, be divided into two bundles through optoisolator 17 by fiber coupler 15, be converted to same polarization state, enter guiding

fiber

3a and 4a from port 3 and port 4 respectively then through two polarization state controller 13a and 13b.。Light among the 4a (hereinafter to be referred as the I road) is divided into two equal bundles at head end box 11 by power and enters 7 respectively at 1: 1, article 8 two, single-mode fiber constitutes two arms of Mach-Zehnder interferometer, in the transmission course of two-beam, when pipe leakage takes place, construction around the pipeline, third parties such as drilling hole of oil stolen destroy and disaster (as: earthquake, flood, rubble flow, avalanche and landslide) etc. during the outer signals disturbance, to cause two fiber lengths, diameter and refractive index change, thereby the phase place of two-beam is changed, when two-beam when controller 10 converges endways since the existence of phase differential interfere, interference signal is passed 1 of light signal demodulating system back by 1,2 two optical fiber, 2 two ports are by

photodetector

12a, 12b is converted to electric signal with light signal.Electric signal is by the differential input analog-to-digital conversion module of the signal condition module 16a of 14a and 14b, and digital signal input computing machine 19 carries out digital signal processing and event analysis.Meanwhile the light among the 3a (hereinafter to be referred as the II road) enter trunk cable 9 the 3b fibre core endways controller be divided into two bundles and enter 7,8 two single-mode fibers, interfere at head end controller 11, interference signal is passed 5,6 two ports of light signal demodulating system 19 back by two guiding fibers of 5a, 6a, be converted to the signal condition module differential input analog-to-digital conversion module 16b of electric signal by 14c, 14d by 12c and two photodetectors of 12d, digital signal input computing machine 18 carries out digital signal processing and analysis.

Use a computer signature analysis is carried out on I road or II road signal utilization digital signal processing method, different destruction, threat incident can be classified, effectively avoid false-alarm and wrong report.Propagate into the mistiming of light signal demodulating system 20 simultaneously by I road and II road two ways of optical signals, can realize threatening effective location of incident.The velocity of propagation of light in optical fiber is up to 2.0 * 108km, so the response time of system is extremely short, can realize in several milliseconds threatening the location of incident.

Characteristics of the present utility model are, traditional Mach-Zehnder fibre optic interferometer is transformed, and the emission of light and receiving device are at same end, and the other end is the light path pecker of particular design, is inactive component, and energy requirement is not supplied with.And, effectively raise signal to noise ratio (S/N ratio) and phse sensitivity, thereby strengthened the effective detectable distance of system with the differential input computing machine of the light signal that interferes.

The optical cable that uses in the utility model is the common communications optical cable, can or be through among the silicone tube for armouring.The fibre core of optical fiber is a general single mode fiber.Wherein draw fine six core fibres that use, trunk cable need use five core fibres.In the light signal demodulating system, optical fiber all adopts the welding mode to connect, the fiber coupler of use all are Y type coupling mechanisms of dividing equally at 1: 1 by luminous power.

It is same polarization position that the polarization state of light controller that the utility model uses is regulated the light that enters optical fiber sensing system from port 3 and port 4, effectively guaranteed still to be coherent light through the light that arrives head end box 11, end cassettes 10 after tens of kilometers the propagation, avoid the change of the inconsistent polarization state that causes of interferometer two arms produces in the communication process interference signal decline and distortion, therefore can realize the Fibre Optical Sensor of longer distance.

The utility model is a kind of redundant standby fibre core formation sensing loop that utilizes existing oil and gas pipes with the communications optical cable of ditch laying, monitors various third party's destructive activities such as pipeline illegal excavation along the line, drilling hole of oil stolen in real time, guarantees the safe operation of oil and gas pipes.Tens of kilometers non-relay monitoring can be realized on a large scale, real-time intrusion event location and warning can be realized based on special location algorithm.

This system effectively raises the detection sensitivity of system and effective detection length of separate unit system, bearing accuracy height.

Description of drawings

Fig. 1 is based on the distributed type optical fibre pipeline safe early-warning system of phase interference

The two second order active band pass filter circuit diagrams of Fig. 2

1-port one a-guiding fiber wherein

1b-fibre core 2-port

2a-guiding fiber 2b-fibre core

3-port 3a-guiding fiber

3b-fibre core 4-port

4a-guiding fiber 5-port

5a-guiding fiber 6-port

6a-guiding fiber 7-fibre core

8-fibre core 9-optical cable

10-end cassettes 11-head end box

12a-photodetector 12b-photodetector

12c-photodetector 12d-photodetector

13a-polarization state controller 13b-polarization state controller

14b-signal condition unit, 14a-signal condition unit

14d-signal condition unit, 14c-signal condition unit

15-fiber coupler 16a-analog to digital converter

16b-analog to digital converter 17-optoisolator

18-LASER Light Source 19-signal Processing computing machine

20-light signal demodulating system

Embodiment

Embodiment. this example is an experimental prototype, and its optical circuit connects as shown in Figure 1.The laser that LASER Light Source 18 is sent is connected with fiber coupler 15 behind optoisolator 17, be divided into two bundles by fiber coupler 15, be converted to same polarization state through two polarization state controller 13a and 13b, output connects port 3,4 through guiding

fiber

end cassettes

photodetector

meet photodetector

12c, 12d respectively from the fibre core 7,8 that end cassettes 10 picks out,

photodetector

Here signal condition unit 14a～14d (see figure 2) is two second order active band pass filters, it is made up of three operational amplifier A 1, A2, A3, low (height) that A1 forms is connected with height (low) bandpass filter that phase inverter output that source filter forms through A2 forms through A3 again and feeds back to low (height) that A1 forms and be connected with the source filter input, its centre frequency is adjustable, and gain does not change with centre frequency.

Head end box 11 and end cassettes 10 are the optical cable connecting box of particular design, are fiber coupler 13 (city's pin product) in the box, do not contain any active device, and waterproof, protection against the tide, corrosion-resistant can be fit to use for a long time with burying.

Wherein used LASER Light Source 18 is a superradiation light-emitting cast stabilized light source, and its light source frequency is 1550nm; Photodetection 12a-12d is the InGaAs photodetector; Fiber coupler 13 selects Shenzhen Langguang Science ﹠ Technology Co., Ltd.'s single mode standard coupler, and signal condition unit 14a-14d is by circuit shown in Figure 2, and wherein operational amplifier A 1, A2, A3 select AD8512, R1 is 10K, and R2 is 100K, and R3 is 10K, R4 is 20K, and C1 is 47PF, and C2 is 47PF; The light signal demodulating system is connected for the FC/APC wire jumper with the interface 1-6 of exterior guiding optical fiber, and other optical fiber are connected to and adopt the optical fiber splicer welding; Analog to digital converter 16a, 16b are the high-speed data acquisition card 6132 of NI company; Signal Processing computing machine 19 selects to grind magnificent company 610 industrial computer series.

This example proves the non-relay monitoring that can realize tens of kilometers of station spacings on a large scale through on-the-spot test of many times, can stablize, realize reliably real-time intrusion event location and warning based on special location algorithm.This system is with the differential input computing machine of the light signal that interferes, effectively raise signal to noise ratio (S/N ratio) and phse sensitivity, shovel soil all can be measured in the 5m around pipeline, thereby effectively raises the detection sensitivity of system and effective detection length of separate unit system, and the bearing accuracy height can reach ± 1m.

Claims

1. buried pipeline, structures or important ground structures, the distributed type optical fibre pipeline safe early-warning system based on phase interference of the safeguard protection early warning in critical facility and zone, comprise the Mach-Zehnder fibre optic interferometer that constitutes along the optical fiber of pipeline laying, it is characterized in that laser that LASER Light Source [17] is sent is exported behind optoisolator [15] is divided into two bundles by fiber coupler [15], be converted to same polarization state through two polarization state controllers [13a] and [13b], output is through port [3], [4] connect guiding fiber [3a], [4a], guiding fiber [3a] connects the fibre core [3b] in the optical cable [9], guiding fiber [4a] connects the fibre core [7] in the optical cable [9] behind head end box [11], fibre core [8], fibre core [3b] and fibre core [7], fibre core [8] connects end cassettes [10], the fibre core [1b] that picks out from end cassettes [10], [2b] connects guiding fiber [1a] more respectively, [2a] also connects photodetector [12a] through port [1] and [2], [12b], photodetector [12a], [12b[output respectively connects signal condition unit [14a], [14b] back common differential input analog-to-digital converter [16a], the output of analog to digital converter [16a] connects the input of signal Processing computing machine [18]; Receive head end box [11] after guiding fiber [5a], [6a] and port [5], [6] meet photodetector [12c], [12d] respectively from fibre core [7], [8] that end cassettes [10] picks out, photodetector [12c], [12d] output respectively connect signal condition unit [14c], [14d] back common differential input analog-to-digital converter [16b], and the output of analog to digital converter [16b] connects the input of signal Processing computing machine [19].

2. the distributed type optical fibre pipeline safe early-warning system based on phase interference according to claim 1 is characterized in that described head end box [11], end cassettes [10] are optical cable connecting box, are fiber coupler in the box.

3. the distributed type optical fibre pipeline safe early-warning system based on phase interference according to claim 1, it is characterized in that described signal condition unit [14a]～[14d] is two second order active band pass filters, it is made up of three operational amplifier A 1, A2, A3, the high or low resistance wave filter that the phase inverter output that the low or high pass active filter that A1 forms is formed through A2 is formed through A3 again feeds back to the low or high pass active filter input that A1 forms, its centre frequency is adjustable, and gain does not change with centre frequency.