DE10306635A1 - Long-distance insulated pipeline, to carry heat or hazardous materials, has a channel through the insulation between the mantle and pipe to take a cable to identify the location of leakages - Google Patents

Abstract

The monitor to identify leakages, in insulated long-distance pipelines, has channels (1) through the insulation (2) to take inserted sensor or sensor-hybrid or communication cables for monitoring and data transmission. A perforated channel (1a) is inserted through the insulation channel, to hold the cable. The pipeline has a flexible or rigid plastics mantle (4) shrouding the insulation round the inner steel pipe (3).

Description

The invention relates to a measuring device according to the generic term of claim 1.

The use of sensor elements for monitoring systems consisting of plastic jacket pipes for district heating supply or pipe systems for transporting environmentally hazardous substances is known from the following documents:
From the article "Does a surveillance system grant the operator of a district heating system additional advantages through the independence of the surveillance?" Monitoring wires that are foamed in the thermal insulation of the casing pipe and the associated electronic measuring devices are known Damage to the casing pipe and the ingress of moisture as well as leaks in the connection weld seam in the steel medium pipes caused by movements in the ground or external influences can be reported by the monitoring system before visually recognizable damage occurs. The disadvantage of this electronic monitoring method is that the monitoring distances are relatively short and additional amplifiers are required to transmit the measurement signal at short intervals.

The EP-A2-0 45 753 describes a measuring device for determining water ingress into the cable. The sensor here consists of a certain glass fiber, which is integrated in the fiber optic cable and is radially coated with a swelling body over its entire length. The glass fiber is bent laterally when water enters. The measuring device connected to the glass fiber evaluates this bend by measuring the resulting transmission loss. The disadvantage is that this does not require a standard but a glass fiber with a special coating, which is only used to determine water ingress into the cable.

From the DE 43 09 411 A1 a moisture sensor is known, which is part of an electrical or optical cable and is used to detect moisture ingress in plastic-coated cables. Either a copper wire or an optical wire is used as the moisture sensor; which come into contact with the moisture in the event of moisture by dissolving the surrounding cable sheath material and are activated. When using the copper wire sensor element, the entry of moisture can be determined by measuring the decrease in the insulation resistance of the signaling wire and when using optical sensor elements by measuring an increase in attenuation or reflection.

From the PCT / EP99 / 05998 is a sensor for Detection of water ingress in sleeves of telecommunications systems known, which consists of a sensor part that is mounted in sleeves. This water sensor is also characterized in that when water enters a viscose sponge into the glass fiber connection sleeve by swelling the for surveillance deformed single-mode fiber of the fiber optic cable and thus at the bending-sensitive measuring wavelength 1625 nm at the far measuring / monitoring end an increase in damping signals becomes. It is advantageous that a standard single-mode fiber is used as a sensor is the measurement of the change in attenuation over long distances up to 80 km in length allows can be installed easily, economically and quickly and allows the use of existing networks.

Next is from PCT / EP03 / 00261 a sensor for Detection of water ingress or hydrocarbon compounds in insulated pipe systems known in a sensor or sensor hybrid cable (suitable for surveillance and data transfer) is integrated. This sensor / sensor hybrid cable is single-mode fiber used as an optical sensor, which take over the monitoring function. When heat or certain hydrocarbon compounds occur cause the rest, Materials contained in the cable due to changes in properties (swell, dissolve, break etc.) the activation of the optical sensor by generating a Bend of the optical sensor, where the remaining Single-mode fibers, which if necessary for Data transmission purposes can be contained in the cable, not be influenced. This by bending the single-mode fiber section generated damping increase is so high that it is at the bending-sensitive measuring wavelength 1625 nm at the far end of measurement / monitoring by means of a monitoring system / measuring device without difficulty is noticeable. It is advantageous that a standard single-mode fiber as a sensor is used, the measurement of the change in attenuation over long distances with up to 80 km in length allows enable simple, economical and quick installation and allow the use of existing networks.

Through the writing IEC EN 60793-1-22 Method B is the measurement of the increase in damping and the determination of Leaks over a distance of over 80 km at the measuring wavelength 1625 nm of single-mode fibers of type B.1.1 are known.

The object of the invention is therein, a measuring device mentioned in the preamble of claim 1 Art to create sensor elements and materials according to PCT / EP99 / 05998 and PCT / EP03 / 00261 universal for monitoring long-distance routes up to 80 km in length deploy and a fast, reliable and clearly identifiable To allow location of leaks.

This task comes with the characteristics of claim 1 solved.

The measuring device consists of district heating supply or for the transport of environmentally hazardous Fabrics used jacket pipes, the integrated transport pipes, monitoring elements in a duct system, which is in the insulation material of the casing pipe located, included and a measuring device connected at the far end,

Contrary to the previously known type of surveillance with metallic veins inside the jacket tube, the Measuring device of the invention by using an optical sensor in Formation of a sensor, sensor hybrid cable according to PCT / EP03 / 00261 or one monitored by a sensor in accordance with PCT / EP99 / 05998 Telecommunication cable instead of the previously metal monitoring wire and one suitable sealing of the connection points of the individual carrier pipes and sleeves, which are the main ones Have proven to be a source of error and is therefore for monitoring of long-distance routes with a length of up to 80 km and a fast, reliable and suitable for clearly identifiable location of leaks.

As a sensor sensor is in the optical Sensors, sensor / sensor hybrid cables according to patent application PCT / EP99 / 05998 and PCT / EP03 / 00261 a standard single mode fiber sensitive to bending according to ITU-T G.652 used, which takes over the monitoring function. The optical sensor element according to the above Invention has as a signal generator Materials and / or components that dissolve as a result of leaks, swell, brittle or behave shrinkingly and in the event of a leak or malfunction the optical sensor mechanically claim. This mechanical stress is in the long-wave Range 1625 nm so high that it uses an attenuation measuring device with no difficulty long distances immediately, reliably and clearly identifiable is.

In addition, the use offers the advantages of a standard single-mode fiber as an optical sensor, additional monitoring sensors for measuring water levels, Temperatures, damage use, as well as an economical, fast installation and use of the existing access / distribution network Use of existing own telecommunication networks, Telekom networks, Carriers or additional Data transmission paths such as. Video, slide, controller control etc.

Advantageous training of the measuring device are in the subclaims resigned.

The invention is based on exemplary embodiments explained in more detail.

Show it:

1 a plan view of a jacket pipe with a steel medium pipe in the center and a channel for receiving the sensor cable

2 a cross section of two interconnected pipes 1

3 the perspective view of an adapter to protect the connection points between the channels for receiving the sensor cable and / or the sensors

4 a cross section of the measuring arrangement of a ready-assembled pipe system with integrated sensor cable according to PCT / EP03 / 00261

5 a cross-section of the measuring arrangement of the ready-to-operate pipe system with integrated telecommunication cable and integrated sensor according to PCT / EP99 / 05998 in the area of the weld seam (connection point) of the steel medium pipe

6 a perspective view of the sensor from PCT / EP99 / 05998 mounted in a splice cassette after 6

7 a schematic representation of the measuring arrangement

In 1 is a standard jacket pipe 4 made of plastic, which can be rigid or flexible. There is a steel medium pipe inside the casing pipe 3 for the transport of district heating or environmentally hazardous substances as well as insulation material 2 consisting of PUR foam, fiber / PU or foam glass / PU which surrounds the steel medium pipe. In the insulation material 2 is a channel at the factory 1 or a subsequently drilled, perforated channel 1a included to accommodate the sensor, sensor hybrid or telecommunication cable.

2 provides two jacket pipes 4 represents, here the two steel medium pipes located inside 3 by means of a weld seam 3a are interconnected. In the insulation material 2 consisting of PUR foam, fiber / PU or foam glass / PU which is the steel medium pipe 3 surrounds, there is a channel 1 . 1a for receiving a sensor cable according to PCT / EP03 / 00261.

In 3 is a split, perforated adapter 5 shown, which with interconnected casing pipes 4 for the bumpless connection of the sensor cable channels 1 . 1a and / or for receiving sensors at the pipe connection points.

4 shows the sealing of the in the channel 1 . 1a installed and at the connection point using an adapter 5 protected sensor, sensor hybrid cable 10 , To protect against moisture, there are empty spaces between the two jacket pipes 4 with an inserted piece of casing pipe 9 , a moisture-proof foam 8th provided, as well as the adapter 5 with an impermeable wrapping 7 Mistake. The seal to the channel 1 . 1a inside the adapter 5 consists of a material that is not resistant to the analyte 6 ,

5 shows how 4 sealing the in the channel 1 . 1a installed and at the connection point using an adapter 5 protected communication and / or sensor hybrid cable 11 with mounted sensor 6 , To protect against moisture, there are empty spaces between the two jacket pipes 4 with an inserted piece of casing pipe 9 , a moisture-proof foam 8th provided, as well as the adapter 5 with an impermeable wrapping 7 Mistake. The seal to the channel 1 . 1a inside the adapter 5 consists of a material that is not resistant to the analyte 6 ,

6 shows the position of the ready sensor 5 PCT / EP99 / 05998 mounted in a splice cassette. The sensor housing 13 was opposite the splice holder 14 with the help of the fastening eyelet 5 fixed in the splice cassette. The veins 11a which are the optical sensors selected from the telecommunication and / or sensor hybrid cable 15 included, are inserted into the splice cassette, fixed and connected together. The optical sensor selected for monitoring purposes 15 comes with an excess fiber length / reserve 16 in the splice cassette or a part in the fiber guide of the sensor housing 13 inserted.

In 7 the measuring device according to the invention is shown in more detail, in which the above-described optical sensors, sensor, sensor hybrid or telecommunication cables are used. An insulated pipe system 4 for the transport of hot water or environmentally hazardous substances should leak in the pipe 3 and / or at the connection points (welding points) 3a be monitored for leaks. In the pipe is in a cable duct 1 . 1a an optical sensor or telecommunication and / or sensor hybrid cable depending on the analyte to be detected in a suitable position relative to the transport tube 10 . 11 relocated the at least one fiber as a sensor 15 in the sensor 6 for monitoring purposes.

The optical sensor 15 is to a damping measuring device 17 connected from an OTDR measuring module based on backscatter technology 18 , an optical switch 19 , a memory module 20 and an alarm module 21 consists. The damping measuring device 17 carries out measurements independently at specified intervals and compares the measured values with the original measured values (reference values) stored in the storage mode 20 are deposited. Using the optical switch 19 Several sensor cable sections connected to the measuring device can be measured in succession. If certain limit values are exceeded in the event of a leak caused by bending the sensor element 15 is displayed is carried out using the alarm module 21 an alarm message and the determination of the exact location of the leak.

Numbering of the drawings

Claims (9)

Measuring device for detecting leaks with insulated protective pipe systems for the transport of district heating, hot water, Water vapor, environmentally hazardous Fabrics etc. consisting of rigid or flexible jacket pipes with factory-integrated transport pipes, for example designed from a steel medium and channels for pulling in sensor, sensor hybrid or telecommunication cables for monitoring and data transmission. Measuring device according to claim 1, characterized in that the channel for receiving the sensor, sensor hybrid or telecommunication cable later using standardized horizontal drilling rigs instead of the included ones electrical sensor cables in the PUR pipe insulation and / or PUR foam points from Jacket pipes can be introduced into existing pipe systems. Measuring device according to claim 2, characterized in the channel for receiving the sensor cable from a perforated, analytendurchlässigen Pipe exist and subsequently can be attached. Measuring device according to claim 1, characterized in that in the construction of the pipe systems the gaps between the sensor cable ducts at the pipe end / beginning connected with an at least two-part, perforated adapter tube can be. Measuring device according to claim 4, characterized in that the spaces between the sensor cable and the channels for receiving the sensor cable with a material that is not resistant to the analyte loosely wrapped that swells in the event of a leak and seals the pipe ends. Measuring device according to claim 4, characterized in that the adapter is made of an analyte-permeable and a PUR foam impermeable Wrapping is surrounded Measuring device according to claim 1, characterized in that in the channel for receiving the sensor cable subsequently via a Distance of several hundred meters according to the patent application PCT / EP03 / 00261 Known sensor / or sensor hybrid cable for detecting the Analytes can be pulled in, pulled out or pulled out Measuring device according to claim 1, characterized in that when building pipe systems at the pipe connection points optical sensor e.g. according to patent application PCT / EP99 / 05998 can. Measuring device according to claim 7, characterized in that with the sensor, sensor hybrid known after patent application or telecommunication cables by optical routes up to 80 km away, local Leaks, water levels and temperature differences at the end points as well as signal controls, video surveillance and meter readings carried out can be.