RU2413902C1 - Procedure for control of technical state of crosses in mains and system for its implementation - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: procedure consists in measurement of electric resistance R between pair of crossing mains and in continuous comparison of measured values with corresponding reference value R₀. At R<R₀ there is diagnosed a threat of hazardous condition of crossing. The system of control over technical state of crosses in mains consists of a current source and of an amplifier connected in parallel to the controlled pair of crossing mains in the point of their crossing. Further, the system consists of serially connected analogue-digital converter and micro-processor, of a unit for transmitting digital information and of a recorder. Also, the output of the amplifier is connected to the input of the analogue-digital converter, while outputs of the micro-processor are connected to the recorder and to controlled inputs of the current source and unit for transmitting digital information.

EFFECT: avoiding threat of hazardous state of main crossing.

14 cl, 1 dwg

Description

The invention relates to pipeline transport and can be used to control the technical condition of intersections of trunk pipelines (MT).

When MT crosses one another, undesirable processes associated with their interaction can occur that have different physical nature, for example, instability of the spatial position of the MT, which can lead to both force contact between the pipelines and an increase in the level of the stress-strain state. The permissible potential difference of intersecting pipelines can also be exceeded, which can lead to the formation of dangerous leakage currents and a sharp increase in corrosion processes.

Currently, in the patent and scientific literature there are no analogues aimed at solving the problem.

The following are descriptions of technical solutions that have no analogues. A method for monitoring the technical condition of MT crossings is that they measure the electrical resistance R between intersecting pipelines and, at R <R ₀ , where R ₀ is the threshold value, the threat of a dangerous crossing condition is diagnosed.

The threshold value of R ₀ set in the range from 1 to 5 ohms.

The electrical resistance R is measured with alternating current.

The frequency of the alternating current is set in the range from 200 to 400 Hz.

The electrical resistance R is measured in direct current.

The DC current is set in the range from 50 mA to 1 A.

The system for monitoring the technical condition of intersections of trunk pipelines contains a current source and an amplifier connected in parallel to a controlled pair of intersecting pipelines at their intersection and connected in series with an analog-to-digital converter and microprocessor, as well as a digital information transmission unit and a recorder, while the amplifier output is connected to the input analog-to-digital converter, and the microprocessor outputs to the recorder and the controlled inputs of the current source and the transmission unit digitally th information.

The system additionally contains a leakage sensor of the transported medium, the output of which is connected via an additionally introduced analog-to-digital converter to the microprocessor.

The digital information transmission unit is made in the form of a radio modem, or a cable for transmitting digital information, or a pipeline for transmitting digital information.

The system includes a display installed in the control room operational monitoring of the state of the intersection of pipelines.

The system contains a server for collecting, storing and displaying information, means for alerting the rapid response services about the dangerous state of the intersection.

The invention is illustrated in the drawing, which shows a diagram of a system for implementing the method of monitoring the technical condition for one intersection of two MT.

These method and system can be sequentially or simultaneously applied to multiple MT intersections.

The control system for the technical condition of the intersection 1 of pipelines 2, 3 contains electrodes 4, 5, respectively welded to pipelines 2, 3, with which an amplifier 6 and a direct or alternating current source 7 are electrically connected in parallel.

There are also a series-connected analog-to-digital converter (ADC) 8 and a microprocessor (MP) 9, as well as a block 10 for transmitting digital information (BPCI) 10, made in the form of a radio modem or blocks for transmitting information via cable or pipe. Information is transmitted to the control center for monitoring the state of the MT intersection (not shown in the drawing).

The system includes a registrar 11 of the technical condition of the intersection of MT 2 and 3. The system may additionally contain a leakage sensor of the transported medium, the output of which is connected through an additionally introduced ADC to MP 9 (the leakage sensor and additional ADC are not shown in the drawing).

The system also includes a display installed in the control room, and a server for collecting, storing and displaying information (not shown in the drawing).

The system may include means for alerting the rapid response services about the dangerous state of the intersection (not shown in the drawing).

The method is implemented as follows on the example of two intersecting pipelines.

Using a source 7 of direct or alternating currents, the electric circuit electrode 4, MT 3, the annulus of the annulus at the intersection of pipelines 2,3, MT 2, electrode 5 are closed.

Moreover, depending on the value of the electrical resistance R between the pair MT 2 and 3, the value of the signal from the electrodes 4,5 to the amplifier 6 will be different.

In turn, the magnitude of the electrical resistance R between a pair of pipelines 2,3 will depend on the distance between the MT and the state of the soil in the interval between the pipelines at the intersection 1.

A change in the distance between the pipelines at the point of controlled intersection 1 can lead to the appearance of dangerous force contact at the MT, and a change in the physical and chemical state of the soil can lead to a sharp acceleration of corrosion processes at the point of intersection of the pipelines. Both processes lead to the emergence of a dangerous state of controlled intersection.

After amplifier 6, the signal R through the ADC 8 is fed to the input of the MP 9, where it is compared with the reference value of the resistance R ₀ , the value of which is set based on the calculated and experimental data of the particular MT intersection. As experiments have shown, R ₀ lies in the range (1.0 ... 5.0) Ohms for most MT intersections.

To diagnose the normal state of MT crossing, the value of R should not be lower than the predetermined threshold value R ₀ .

The value of R _{0 is} entered in advance in MP 9, the signal from which is sent to the recorder 11 and BPSI 10. Information about the technical condition of the intersections of pipelines is transmitted to a control room (not shown).

Resistance R can be measured both on alternating and direct currents. In the first case, use an alternating current with a frequency of (200 ... 400) Hz, in the second - direct current with a force of (0.05 ... 5) A.

These values are optimal for solving the problem and are selected by calculation and experimental means for typical MT intersections.

Claims (14)

1. A method for monitoring the technical condition of intersections of main pipelines, which consists in measuring the electrical resistance R between intersecting pipelines and, at R <R ₀ , where R ₀ is a threshold value, a threat of a dangerous crossing condition is diagnosed. 2. The method according to claim 1, characterized in that the threshold value R _{0 is} set in the range from 1 to 5 ohms. 3. The method according to claim 1, characterized in that the electrical resistance R is measured with alternating current. 4. The method according to claim 2, characterized in that the frequency of the alternating current is set in the range from 200 to 400 Hz. 5. The method according to claim 1, characterized in that the electrical resistance R is measured in direct current. 6. The method according to claim 5, characterized in that the DC current is set in the range from 50 mA to 1 A. 7. A system for monitoring the technical condition of intersections of trunk pipelines, comprising a current source and an amplifier connected in parallel to a controlled pair of intersecting pipelines at the point of intersection, and a series-connected analog-to-digital converter and microprocessor, as well as a digital information transmission unit and a recorder, while the output the amplifier is connected to the input of an analog-to-digital converter, and the microprocessor outputs are connected to the recorder and the controlled inputs of the current source and the qi transmission unit rovoy information. 8. The system according to claim 7, characterized in that it further comprises a leakage sensor of the transported medium, the output of which is connected via an additionally introduced analog-to-digital converter to the microprocessor. 9. The system according to claim 7, characterized in that the digital information transmission unit is made in the form of a radio modem. 10. The system according to claim 7, characterized in that the digital information transmission unit is made in the form of a cable for transmitting digital information. 11. The system according to claim 7, characterized in that the digital information transmission unit is made in the form of a pipeline for transmitting digital information. 12. The system according to claim 7, characterized in that it further comprises a display installed in the control room of the operational control of the state of the intersection of pipelines. 13. The system according to claim 7, characterized in that it further comprises a server for collecting, storing and displaying information. 14. The system according to claim 7, characterized in that it further comprises means for alerting the rapid response services about the threat of a dangerous crossing state.