RU2011110C1 - Device for locating leaks in pipe line - Google Patents

Abstract

FIELD: location of leaks. SUBSTANCE: leak recorder employing the circuit of double electrical bridge is connected to measuring conductor. Several leak detectors mounted discretely at points of probable leakage are connected to measuring conductor. Conductor is laid outside pipe line walls. EFFECT: enhanced efficiency. 1 dwg

Description

 The invention relates to pipeline transport, and in particular to devices for remote monitoring of the leak, mainly for pipelines with highly toxic and radioactive solutions.

 A device for detecting leaks in heat-insulated fluid pipelines comprising a pulse generator, a leak sensor connected to a receiving device, and a secondary device, the leak sensor being made in the form of a coaxial cable laid in thermal insulation along the pipeline and connected to a pulse generator ( see ed. certificate CCCP N 612102, class F 17 D 5/02).

 The known device cannot be used for pipelines without thermal insulation. In addition, with insufficiently high accuracy of determining the location of the leak, the use of the device requires the manufacture of a special perforated coaxial cable and a complex measuring complex.

 A device is known for detecting a leak in a pipeline with an electrically conductive liquid, containing an insulated conductor laid along the pipeline and connected to one of the clamps of the leak location recorder, while the conductor is wound onto the pipeline in a spiral and placed between layers of paper waterproofing poured with bitumen on top (see ed. St. USSR N 806987, class F 17 L 5/02).

 The known device requires special waterproofing of the entire pipeline. In addition, the known device requires laying an expensive high-resistance conductor in the thickness of the waterproofing, which increases both the cost of the device and the complexity of mounting the device as a whole.

 A device is known for detecting a leak in an uninsulated pipeline with an electrically conductive radioactive liquid installed in a closed tray lined with stainless steel, containing a measuring conductor laid in the tray with a gap relative to its bottom, while the measuring conductor and the lining of the tray at the beginning of the pipeline are connected to the location register leaks according to the scheme of a single-arm measuring bridge (see ed. St. USSR N 1332971, class F 17 D 5/02).

 The known device when used for pipelines laid with a slope (and according to regulatory documents they should be laid) is unreliable in operation, since in this case, if a leak occurs, the fluid flowing out of the pipeline will drain along the tray towards the slope, and short circuits in the electrical circuit of the measuring conductor and the lining of the tray will also move in the direction of the slope up to the lower point of the pipeline route.

 Therefore, the indications of the leak location recorder (in a known device) will depend on the slope, the quality of the bottom of the tray, the time of measurement (measurement) and the flow rate of the leak, which can cause an incorrect determination of the distance to the leak, or simply “point” to the lower point of the pipeline route, which can be located at a considerable distance from the actual location of the leak.

 The closest in technical essence and the achieved result is a known device for detecting a leak, containing an insulated cable laid in an electrically conductive medium of the pipeline, connected at the end of the pipeline to an insulated conductor mounted in a longitudinal weld of the pipe. At the beginning of the pipeline, the ends of the insulated cable and the insulated conductor are connected to the leak location recorder, whose role is played by a direct current measuring bridge. A galvanometer is installed in one diagonal of the measuring bridge, to the clamps of which the ends of the cable and conductor are connected, forming two arms of the measured resistances. The power supply of the other diagonal of the measuring bridge with one pole is connected to the engine of the balancing rheostat, and the other pole is connected to the grounding conductor. If damage occurs in the weld of the pipeline, the insulation of the conductor mounted in the longitudinal weld is broken and it is grounded. The power circuit of the measuring bridge closes. The distance to the place of damage is determined by the known lengths of the insulated cable and conductor and the measuring resistance.

 This device provides a sufficiently high accuracy of determining the location of a leak in a longitudinal weld of the pipeline, but does not control the transverse (mounting) welds.

 The manufacture of special pipes with insulated conductors mounted in longitudinal welds, and the subsequent installation of such a pipeline, significantly complicates and increases the cost of the design as a whole.

 In addition, the presence of an insulated conductor inside the longitudinal weld significantly reduces not only the strength of the pipeline, but also the quality of the welds, and therefore the reliability of the pipeline.

 The aim of the invention is to increase reliability and simplify the design of the device.

 In addition, other goals are achieved - simplifying the installation of the device, the quality and reliability of the pipeline, as well as the ability to use the device for pipelines with virtually any medium, including non-conductive ones, when installing the corresponding types of sensors.

 This goal is achieved by the fact that in the device for detecting a leak in a pipeline with an electrically conductive liquid, containing a measuring conductor and a leak recorder connected to it, made according to the two-arm measuring bridge, several sensors discretely installed in places of probable leakage are connected to the measuring conductor, and the measuring the conductor is located outside the walls of the pipeline.

 The presence of distinctive features, namely a discrete installation of sensors in places of probable leaks and connected to a measuring conductor located outside the walls of the pipeline indicates the compliance of the proposed solution with the criteria of the invention of "novelty".

 The presence of a causal relationship between the totality of the essential features of the invention and the achieved technical results, namely, increasing reliability along with simplifying the design of the device is achieved by the fact that the discrete installation of sensors in places of probable leaks is used in conjunction with connecting them to a measuring conductor located outside the pipeline, and connecting the ends of the measuring conductor to the leak location recorder according to the scheme of the two-arm measuring bridge allows to take into account the effect of the transient resistance of the sensor at the leak on the accuracy of measuring the distance to the leak, which, as a result of the increased sensitivity of the device, makes it possible to use the device for a pipeline with a liquid having low electrical conductivity, which indicates that the proposed technical solution meets the criteria of the invention "inventive step".

 The drawing shows a device for detecting a leak in a pipeline, an option for a pipeline with a highly toxic conductive fluid.

 A device for detecting a leak in a pipeline contains a pipe 1, laid inside a closed tray 2, leak sensors 3, mounted on the welds of the pipe 1 and connected to the measuring conductor 4, laid along the pipe 1.

 At the beginning of the pipeline, the ends of the measuring conductor 4 and the wall of the pipeline 1 are connected to the clamps of the leak location recorder 5, which is a direct current measuring bridge. A galvanometer is installed in one diagonal of the bridge, to the terminals of which the ends of the measuring conductor 4 are connected, a power source is connected to the other diagonal by one pole, which is connected to the pipe wall 1 through the alarm relay, with the other pole

 During normal pipeline operation, the power supply circuit is open and the device "indicates" no leakage.

 When one of the welds of the pipeline 1 is depressurized, the electrically conductive liquid 6 will fill the annular cavity of the sensor 3, the power supply circuit of the measuring bridge 5 and the alarm relay will be closed.

где l_x - расстояние от начала трубопровода до места течи;
L - длина трубопровода.The distance to the "closing" sensor is determined by the known parameters of the measuring and connecting conductors and the measured ratio of the bridge arms after balancing. With the same material and cross-section of the measuring and connecting conductors, the formula for determining the distance to the leak will take the form:
l _x = 2L

where l _x is the distance from the beginning of the pipeline to the leak;
L is the length of the pipeline.

R ₁ , R ₂ - the resistance of the shoulders of the bridge after balancing.

As a leak location recorder, DC bridges (UMV and MO-6 types), universal cable bridges (P333, P334 types) and other bridges with an external galvanometer with a sensitivity of at least 10 ^-6 -10 ^-7 A / mm, and automatic, electronic bridges with a sensitivity of at least 10 ^-6 -10 ^-7 A / mm.

 The measuring conductor is recommended to be made of a wire with a diameter of 0.5-1.5 mm, which can be connected to the leak location recorder using two wires of a technological communication cable, which, as a rule, is laid along the pipeline route.

 As sensors, depending on the pumped medium, standard clamps with gaskets made of insulating material can be used, in which annular cutouts or other sensors working on “closure” when interacting with the pipeline medium should be made.

 The implementation of this device in industry does not cause difficulties and involves the use of developed materials and standard equipment, while in the case of using the device, not only the level of technical characteristics increases, but also the working conditions, technical and environmental safety, especially for industries associated with pumping highly toxic and radioactive solutions.

 Thus, the proposed technical solution meets the criterion of "industrial applicability".

 (56) Application of Germany N 1940872, cl. F 17 D 5/06, 1961.

Claims (1)

 DEVICE FOR DETECTING A LEAKAGE PLACE IN A PIPELINE, comprising a measuring conductor and a leak detector connected to it, made according to the two-shoulder measuring bridge, characterized in that several sensors are discretely installed in places of probable leakage, and the measuring conductor is located outside the pipeline walls.

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