CN107576420A - A kind of energy conduit leakage monitoring system - Google Patents

Abstract

The invention discloses a kind of energy conduit leakage monitoring system, including energy supply pipeline, temperature sensing optical fiber, GPZ, DTS thermometrics main frame and industrial computer, axial direction of the temperature sensing optical fiber along the energy supply pipeline is layed in the wall of the whole energy supply pipeline, and the temperature sensing optical fiber is connected by the GPZ with the DTS thermometrics main frame, the DTS thermometrics main frame is connected with industrial computer；The temperature sensing optical fiber gathers the temperature signal of each position of the whole energy supply pipeline, and the temperature signal collected is sent into the DTS thermometrics main frame；The DTS thermometrics main frame receives the temperature signal from the temperature sensing optical fiber, and monitors the profiling temperatures of the whole energy supply pipeline.The energy conduit leakage monitoring system of the present invention, " profile fiber thermometry " is applied and used in energy pipe network system, improves forecasting reliability, accuracy and stability；The use of temperature sensing optical fiber can not only detect leakage point, also collect the temperature real-time working condition of each point on whole piece pipeline.

Description

A kind of energy conduit leakage monitoring system

Technical field

The present invention relates to a kind of energy conduit leakage monitoring system.

Background technology

At present, the technology such as water source heat pump system, energy recovery and accumulation of energy of avoiding the peak hour is applied in some business districts, using centralization District cooling and heating pattern, the freestanding central air conditioner system solution of traditional architecture is substituted, realize intensive, efficient and section The purpose of energy.

Energy pipeline is directly embedded at 3~5 meters of below ground, is vulnerable to ground external force, soil body sedimentation, pipeline and welding matter The factors such as amount, burn into temperature stress influence, and produce leakage.Its outer layer is wrapped up by waterproof and heat-insulation layer, causes searching leak source to be stranded Difficulty, maintenance time are long, costly.Leak reduces the thermal insulation properties of pipe network heat-insulation layer, while is lost in the energy of pipe network system；Add Fast corrosive pipeline；The soil erosion of initiation and road surface collapse, and produce the City Disasters such as traffic injury accident, energy supply interruption.

Distributed optical fiber temperature measurement technology is anti-based on Effect of Optical Fiber Raman Scatter (Raman Scattering) and optical time domain E measurement technology (Optical Time-Domain Reflectometry) is penetrated to obtain spatial temperature distribution information.By in pipe Road surface lay temperature sensing optical fiber, collection and analysis light pulse propagated in temperature sensing optical fiber caused by Raman back-reflection light when Between and strength information obtain corresponding position and temperature information, after the temperature and positional information of every bit is learnt, so that it may with To a temperature curve on whole optical fiber diverse location.For measurement distance up to 30 kilometers, space orientation reaches the quantity of rice Level, can carry out continual automatic measurement, particularly suitable for needing multimetering application scenario a wide range of over long distances.

At present the technology in tunnel, oil depot, dangerous cargo warehouse, arsenal, industrial and mining enterprises workshop temperature detection It is widely used with the cable of fire alarm warning system and electric power overload temperature monitoring.Distributed optical fiber temperature measurement technology there is no The precedent put into practice in energy pipe network.

The content of the invention

The purpose of the present invention is the defects of overcoming prior art, there is provided a kind of energy conduit leakage monitoring system, will " distribution Optical fiber temperature-measurement method " is applied to be used in energy pipe network system, improves forecasting reliability, accuracy and stability；Temperature-sensitive light Fine use can not only detect leakage point, also collect the temperature real-time working condition of each point on whole piece pipeline, improve whereby daily O＆M it is horizontal, reduce energy consumption.

Realizing the technical scheme of above-mentioned purpose is：A kind of energy conduit leakage monitoring system, including energy supply pipeline, temperature-sensitive light Fibre, GPZ, DTS (optical fiber distributed type) thermometric main frames and industrial computer, wherein：

Axial direction of the temperature sensing optical fiber along the energy supply pipeline is layed in the wall of the whole energy supply pipeline, and described Temperature sensing optical fiber is connected by the GPZ with the DTS thermometrics main frame, and the DTS thermometrics main frame is connected with industrial computer；

The temperature sensing optical fiber gathers the temperature signal of each position of the whole energy supply pipeline, and the temperature that will be collected Signal is sent to the DTS thermometrics main frame；

The DTS thermometrics main frame receives the temperature signal from the temperature sensing optical fiber, and monitors the whole energy supply pipeline Profiling temperatures；

The industrial computer is used for the temperature signal for remotely checking each position of the whole energy supply pipeline and whole institute State the profiling temperatures of energy supply pipeline；

Alarming threshold value is provided with the DTS thermometrics main frame, when the temperature signal of the optional position of the energy supply pipeline surpasses When crossing the alarming threshold value, the DTS thermometrics main frame sends alarm signal to the industrial computer；Display pipes are let out on the industrial computer The particular location of leakage.

A kind of above-mentioned energy conduit leakage monitoring system, wherein, the temperature measurement accuracy of the temperature sensing optical fiber is 1 DEG C；It is minimum Resolution ratio reaches 0.1 DEG C；Position resolution reaches 0.5 meter.

A kind of above-mentioned energy conduit leakage monitoring system, wherein, the energy supply pipeline includes inner tube, heat-insulation layer, outer tube With two optical fiber protective tubes；

Said inner tube, heat-insulation layer and outer tube are sequentially coaxially set from the inside to the outside；

Two optical fiber protective tubes are described respectively along the outer surface for being axially disposed within the heat-insulation layer of the heat-insulation layer Two symmetrical distributions of optical fiber protective tube；And on the cross section of the heat-insulation layer, wherein optical fiber protective tube Between the center at the center and heat-insulation layer of line between center and the center of heat-insulation layer and another optical fiber protective tube Sharp angle between line is less than 160 degree；

Piece temperature sensing optical fiber of equal grafting in the every optical fiber protective tube.

A kind of above-mentioned energy conduit leakage monitoring system, wherein, along the heat-insulation layer on the outer surface of the heat-insulation layer Axial direction offer two through holes, two optical fiber protective tubes are interspersed in described two through holes correspondingly.

A kind of above-mentioned energy conduit leakage monitoring system, wherein, two optical fiber protective tubes and the heat-insulation layer one Body cast molding.

A kind of above-mentioned energy conduit leakage monitoring system, wherein, the optical fiber protective tube uses zinc-plated protection pipe.

A kind of above-mentioned energy conduit leakage monitoring system, wherein, on the cross section of the heat-insulation layer, wherein described in one The center and heat-insulation layer of line between the center of optical fiber protective tube and the center of heat-insulation layer and another optical fiber protective tube Center between line between sharp angle be 120 degree.

The energy conduit leakage monitoring system of the present invention, has advantages below：

(1) " profile fiber thermometry " is applied and used in energy pipe network system, improve forecasting reliability, precisely Property and stability；

(2) use of temperature sensing optical fiber can not only detect leakage point, and the temperature for also collecting each point on whole piece pipeline is real-time Operating mode, daily O＆M level is improved whereby, reduces energy consumption；

(3) the energy conduit leakage monitoring system in business district is applied, demonstration and promotion prospect are boundless, meaning weight Greatly.

Brief description of the drawings

Fig. 1 is the structural representation of the energy conduit leakage monitoring system of the present invention；

Fig. 2 is the structural representation (main view direction) of the energy supply pipeline of the energy conduit leakage monitoring system of the present invention；

Fig. 3 is the structural representation (rear apparent direction) of the energy supply pipeline of the energy conduit leakage monitoring system of the present invention；

Fig. 4 is the cross-sectional view of the energy supply pipeline of the energy conduit leakage monitoring system of the present invention.

Embodiment

In order that those skilled in the art are better understood when technical scheme, it is right below in conjunction with the accompanying drawings Its embodiment is described in detail：

Referring to Fig. 1, highly preferred embodiment of the present invention, a kind of energy conduit leakage monitoring system, including energy supply pipeline 10, Temperature sensing optical fiber 5, GPZ 6, DTS thermometrics main frame 7 and industrial computer 8.

Axial direction of the temperature sensing optical fiber 5 along energy supply pipeline 10 is layed in the wall of whole energy supply pipeline 10, and temperature sensing optical fiber 5 is logical Cross GPZ 6 with DTS thermometrics main frame 7 to be connected, DTS thermometrics main frame 7 is connected with industrial computer 8.

Temperature sensing optical fiber 5 gathers the temperature signal of each position of whole energy supply pipeline 10, and the temperature signal that will be collected It is sent to DTS thermometrics main frame 7；DTS thermometrics main frame 7 receives the temperature signal from temperature sensing optical fiber 5, and monitors whole energy supply pipeline 10 profiling temperatures；Industrial computer 8 is used for the temperature signal of each position for remotely checking whole energy supply pipeline 10 and whole Root energizes the profiling temperatures of pipeline 10.Alarming threshold value is provided with DTS thermometrics main frame 7, when any position of energy supply pipeline 10 When the temperature signal put exceedes the alarming threshold value, DTS thermometrics main frame 7 sends alarm signal to industrial computer 8；Shown on industrial computer 8 The particular location of pipe leakage.

The temperature measurement accuracy of temperature sensing optical fiber 5 is 1 DEG C；Minimum resolution reaches 0.1 DEG C；Position resolution reaches 0.5 meter.

When energizing the generation leakage infiltration of pipeline 10, energizing the energy of the water in pipeline 10 can be transmitted on temperature sensing optical fiber, We on industrial computer 8 can temperature and its change at leakage point with Real Time Observation, then measured by optical time domain reflection technology To the physical location of leakage point, so as to realize pipe leakage judgement and positioning.

In monitoring, temperature sensing optical fiber 5 is little to the thermometric amplitude of variation and speed response of the seepage in underground of jacket exterior, but To the amplitude of variation and speed height of the internal pressure energy leak for energizing pipeline 10.Main cause is that daily soil environment temperature is done Disturb the interference characteristic for being different from pipe network energy leakage.Soil environment temperature is slowly varying, is consistent with weather information, and And change while being global whole conduit region；And energy leakage is just the opposite.Temperature sensing optical fiber 5 can be attached to energy supply pipeline The inner surface laying of the 10 outer tube i.e. outer surface laying of the heat-insulation layer of energy supply pipeline 10, it is similar to underground environment temperature；Hair During raw outboard leak, underground water is to extravasate into heat-insulation layer by pipeline extroversion, and the temperature for just starting optical fiber has almost no change, after Phase causes heat-insulation layer insulating capacity to decline, and the region triggered the temperature of optical fiber and occurred is slowly varying；And occur to let out inside pipeline During leakage, situation is then on the contrary, be swift in response.

It can be wrapped up outside source capsule by waterproof and heat-barrier material, regardless of happening part and mode is leaked, water all can be because of weight Liquid level rising again after power is acted on toward the movement below pipeline, initiation temperature field produces change, therefore temperature measuring optical cable is preferably in pipeline both sides Middle lower section lay.

Fig. 2, Fig. 3 and Fig. 4 are referred to, energy supply pipeline 10 includes inner tube 1, heat-insulation layer 2, outer tube 3 and two optical fiber protective tubes 4.Inner tube 1, heat-insulation layer 2 and outer tube 3 are sequentially coaxially set from the inside to the outside；Two optical fiber protective tubes 4 are respectively along the axial direction of heat-insulation layer 2 The outer surface of heat-insulation layer 2 is arranged on, specifically, two through holes are offered along the axial direction of heat-insulation layer 3 on the outer surface of heat-insulation layer 2, Two optical fiber protective tubes 4 are interspersed in two through holes correspondingly.And two optical fiber protective tubes 4 are cast with the one of heat-insulation layer 2 Shaping.Optical fiber protective tube 4 uses zinc-plated protection pipe.

Two 4 symmetrical distributions of optical fiber protective tube, and on the cross section of heat-insulation layer 2, wherein an optical fiber protective tube 4 Center and heat-insulation layer 2 center between line a and the center of another optical fiber protective tube 4 and the center of heat-insulation layer 2 between Line b between sharp angle α be less than 160 degree；Intert a temperature sensing optical fiber 5 in every optical fiber protective tube 4.

Wrapped up outside traditional energy conduit by waterproof and heat-barrier material, regardless of leaking happening part and mode, water Will be because Action of Gravity Field to be toward liquid level rising again after the movement below pipeline, initiation temperature field produces change, therefore temperature sensing optical fiber preferably exists Lay the middle lower section of pipeline both sides.It is therefore preferable that the company between the center of wherein one optical fiber protective tube and the center of heat-insulation layer The sharp angle α between line b between the center at the center and heat-insulation layer of line a and another optical fiber protective tube is 120 degree, so Two temperature sensing optical fibers 5 are laid along the eight and four direction of the cross section of heat-insulation layer 2 correspondingly.

The energy conduit leakage monitoring system of the present invention, along the cross section of heat-insulation layer inside the heat-insulation layer of energy supply pipeline Four and opening position eight respectively lay a zinc-plated protection pipe, then penetrate temperature sensing optical fiber along zinc-plated protection pipe, Temperature sensing optical fiber is layed in inside whole energy supply pipeline.When in use, when leakage infiltration occurs for pipeline, the energy of the water in pipeline It can be transmitted on temperature sensing optical fiber, our industrial computers on backstage can be with Real Time Observation at leakage point by DTS thermometrics main frame Temperature and change, then measure by optical time domain reflection technology the physical location of leakage point, can realize pipe leakage judge and Positioning.

The energy conduit leakage monitoring system of the present invention, temperature sensing optical fiber are both used as leakage point temperature acquisition sensor, simultaneously And the optical cable of signal transmission.DTS thermometrics main frame can be monitored whole in real time by the temperature monitoring software in industrial computer Root pipe temperature distribution situation, according to the alarming threshold value pre-set, sends alarm signal.

DTS thermometrics main frame 7 is the fire product of the Ministry of Public Security's exclusive " 3C certifications ", is used in numerous domestic engineering.

The energy conduit leakage monitoring system of the present invention, 1) realize long-range Centralizing inspection and management；2) realize that pipeline is let out Leak monitoring, alarming and positioning；3) less rate of false alarm and the higher degree of accuracy, alert news many reference amounts cross validation is realized:4) can day Normal service data collection, easy access, possesses preferable economy.

In summary, energy conduit leakage monitoring system of the invention, " profile fiber thermometry " is applied in energy source capsule Used in net system, improve forecasting reliability, accuracy and stability；The use of temperature sensing optical fiber can not only detect leakage Point, the temperature real-time working condition of each point on whole piece pipeline is also collected, improve daily O＆M level whereby, reduce energy consumption.

Those of ordinary skill in the art it should be appreciated that the embodiment of the above be intended merely to explanation the present invention, And be not used as limitation of the invention, as long as in the spirit of the present invention, the change to embodiment described above Change, modification will all fall in the range of claims of the present invention.

Claims (7)

1. A kind of 1. energy conduit leakage monitoring system, it is characterised in that including energy supply pipeline, temperature sensing optical fiber, GPZ, DTS thermometrics main frame and industrial computer, wherein：

   Axial direction of the temperature sensing optical fiber along the energy supply pipeline is layed in the wall of the whole energy supply pipeline, and the temperature-sensitive Optical fiber is connected by the GPZ with the DTS thermometrics main frame, and the DTS thermometrics main frame is connected with industrial computer；

   The temperature sensing optical fiber gathers the temperature signal of each position of the whole energy supply pipeline, and the temperature signal that will be collected It is sent to the DTS thermometrics main frame；

   The DTS thermometrics main frame receives the temperature signal from the temperature sensing optical fiber, and monitors the temperature of the whole energy supply pipeline Spend distribution situation；

   The industrial computer is used for the temperature signal for remotely checking each position of the whole energy supply pipeline and the whole confession The profiling temperatures of energy pipeline；

   Alarming threshold value is provided with the DTS thermometrics main frame, is somebody's turn to do when the temperature signal of the optional position of the energy supply pipeline exceedes During alarming threshold value, the DTS thermometrics main frame sends alarm signal to the industrial computer；Display pipes leak on the industrial computer Particular location.
2. A kind of 2. energy conduit leakage monitoring system according to claim 1, it is characterised in that the survey of the temperature sensing optical fiber Warm precision is 1 DEG C；Minimum resolution reaches 0.1 DEG C；Position resolution reaches 0.5 meter.
3. 3. a kind of energy conduit leakage monitoring system according to claim 1, it is characterised in that the energy supply pipeline includes Inner tube, heat-insulation layer, outer tube and two optical fiber protective tubes；

   Said inner tube, heat-insulation layer and outer tube are sequentially coaxially set from the inside to the outside；

   Two optical fiber protective tubes are respectively along the outer surface for being axially disposed within the heat-insulation layer of the heat-insulation layer, described two The symmetrical distribution of optical fiber protective tube；And on the cross section of the heat-insulation layer, wherein the center of an optical fiber protective tube Line between the center at the center and heat-insulation layer of line between the center of heat-insulation layer and another optical fiber protective tube Between sharp angle be less than 160 degree；

   Piece temperature sensing optical fiber of equal grafting in the every optical fiber protective tube.
4. A kind of 4. energy conduit leakage monitoring system according to claim 3, it is characterised in that the appearance of the heat-insulation layer Two through holes are offered along the axial direction of the heat-insulation layer on face, two optical fiber protective tubes are interspersed in described two correspondingly In individual through hole.
5. A kind of 5. energy conduit leakage monitoring system according to claim 4, it is characterised in that two fiber optic protections Pipe and the heat-insulation layer one cast molding.
6. 6. a kind of energy conduit leakage monitoring system according to claim 3, it is characterised in that the optical fiber protective tube is adopted With zinc-plated protection pipe.
7. A kind of 7. energy conduit leakage monitoring system according to claim 3, it is characterised in that the heat-insulation layer it is transversal On face, wherein line and another fiber optic protection between the center of optical fiber protective tube and the center of heat-insulation layer The sharp angle between line between the center of pipe and the center of heat-insulation layer is 120 degree.